Vanadium
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Basic Info
| Common Name | Vanadium(F03422) |
| 2D Structure | |
| Description | Vanadium is a steel-grey, corrosion-resistant metal, which exists in oxidation states ranging from -1 to +5. Metallic vanadium does not occur in nature, and the most common valence states are +3, +4, and +5. The pentavalent form (VO3-) predominates in extracellular body fluids whereas the quadrivalent form (VO+2) is the most common intracellular form. Because of its hardness and its ability to form alloys, vanadium (i.e., ferrovanadium) is a common component of hard steel alloys used in machines and tools. Although most foods contain low concentrations of vanadium (< 1 ng/g), food is the major source of exposure to vanadium for the general population. High air concentrations of vanadium occur in the occupation setting during boiler-cleaning operations as a result of the presence of vanadium oxides in the dust. The lungs absorb soluble vanadium compounds (V2O5) well, but the absorption of vanadium salts from the gastrointestinal tract is poor. The excretion of vanadium by the kidneys is rapid with a biological half-life of 20-40 hours in the urine. Physiologically, it exists as an ion in the body. Vanadium is probably an essential trace element, but a vanadium-deficiency disease has not been identified in humans. The estimated daily intake of the US population ranges from 10-60 micrograms V. Vanadyl sulfate is a common supplement used to enhance weight training in athletes at doses up to 60 mg/d. In vitro and animal studies indicate that vanadate and other vanadium compounds increase glucose transport activity and improve glucose metabolism. In general, the toxicity of vanadium compounds is low. Pentavalent compounds are the most toxic and the toxicity of vanadium compounds usually increases as the valence increases. Most of the toxic effects of vanadium compounds result from local irritation of the eyes and upper respiratory tract rather than systemic toxicity. The only clearly documented effect of exposure to vanadium dust is upper respiratory tract irritation characterized by rhinitis, wheezing, nasal hemorrhage, conjunctivitis, cough, sore throat, and chest pain. Case studies have described the onset of asthma after heavy exposure to vanadium compounds, but clinical studies to date have not detected an increased prevalence of asthma in workers exposed to vanadium. Vanadium is a trace element present in practically all cells in plants and animals. It exerts interesting actions in living systems. At pharmacological doses, vanadium compounds display relevant biological actions such as mimicking insulin and growth factors as well as having osteogenic activity. Some vanadium compounds also show antitumoral properties. The importance of vanadium in bone arises from the studies developed to establish the essentiality of this element in animals and humans. Bone tissue, where the element seems to play an important role, accumulates great amounts of vanadium. Among several metals, vanadium has emerged as an extremely potent agent with insulin-like properties. These insulin-like properties have been demonstrated in isolated cells, tissues, different animal models of type I and type II diabetes as well as a limited number of human subjects. Vanadium treatment has been found to improve abnormalities of carbohydrate and lipid metabolism and of gene expression in rodent models of diabetes. In isolated cells, it enhances glucose transport, glycogen and lipid synthesis, and inhibits gluconeogenesis and lipolysis. The molecular mechanism responsible for the insulin-like effects of vanadium compounds have been shown to involve the activation of several key components of insulin-signaling pathways that include the mitogen-activated-protein kinases (MAPKs) extracellular signal-regulated kinase 1/2 (ERK1/2) and p38MAPK, and phosphatidylinositol 3-kinase (PI3-K)/protein kinase B (PKB). (A7727, A7728, A7729) |
| FRCD ID | F03422 |
| CAS Number | 7440-62-2 |
| PubChem CID | 23990 |
| Formula | V |
| IUPAC Name | vanadium |
| InChI Key | LEONUFNNVUYDNQ-UHFFFAOYSA-N |
| InChI | InChI=1S/V |
| Canonical SMILES | [V] |
| Isomeric SMILES | [V] |
| Wikipedia | Vanadium |
| Synonyms |
Vanadium dust
Vanadium(1+), ion
Vanadium
7440-62-2
VANADIUM ION
Vanadium(III)
Vanadium 5+
Vanadium, elemental
Vanadium(1+)
Vanadium, ion(3+)
|
| Classifies |
Metal
|
| Update Date | Nov 13, 2018 17:07 |
Chemical Taxonomy
| Kingdom | Inorganic compounds |
| Superclass | Homogeneous metal compounds |
| Class | Homogeneous transition metal compounds |
| Subclass | Not available |
| Intermediate Tree Nodes | Not available |
| Direct Parent | Homogeneous transition metal compounds |
| Alternative Parents | |
| Molecular Framework | Not available |
| Substituents | Homogeneous transition metal |
| Description | This compound belongs to the class of inorganic compounds known as homogeneous transition metal compounds. These are inorganic compounds containing only metal atoms,with the largest atom being a transition metal atom. |
Properties
| Property Name | Property Value |
|---|---|
| Molecular Weight | 50.941 |
| Hydrogen Bond Donor Count | 0 |
| Hydrogen Bond Acceptor Count | 0 |
| Rotatable Bond Count | 0 |
| Complexity | 0 |
| Monoisotopic Mass | 50.944 |
| Exact Mass | 50.944 |
| Formal Charge | 0 |
| Heavy Atom Count | 1 |
| Defined Atom Stereocenter Count | 0 |
| Undefined Atom Stereocenter Count | 0 |
| Defined Bond Stereocenter Count | 0 |
| Undefined Bond Stereocenter Count | 0 |
| Isotope Atom Count | 0 |
| Covalently-Bonded Unit Count | 1 |
ADMET
| Model | Result | Probability |
|---|---|---|
| Absorption | ||
| Blood-Brain Barrier | BBB+ | 0.9733 |
| Human Intestinal Absorption | HIA+ | 0.9838 |
| Caco-2 Permeability | Caco2+ | 0.7354 |
| P-glycoprotein Substrate | Non-substrate | 0.8810 |
| P-glycoprotein Inhibitor | Non-inhibitor | 0.9787 |
| Non-inhibitor | 0.9858 | |
| Renal Organic Cation Transporter | Non-inhibitor | 0.9108 |
| Distribution | ||
| Subcellular localization | Lysosome | 0.5856 |
| Metabolism | ||
| CYP450 2C9 Substrate | Non-substrate | 0.8466 |
| CYP450 2D6 Substrate | Non-substrate | 0.8259 |
| CYP450 3A4 Substrate | Non-substrate | 0.8158 |
| CYP450 1A2 Inhibitor | Non-inhibitor | 0.8809 |
| CYP450 2C9 Inhibitor | Non-inhibitor | 0.9373 |
| CYP450 2D6 Inhibitor | Non-inhibitor | 0.9708 |
| CYP450 2C19 Inhibitor | Non-inhibitor | 0.9554 |
| CYP450 3A4 Inhibitor | Non-inhibitor | 0.9880 |
| CYP Inhibitory Promiscuity | Low CYP Inhibitory Promiscuity | 0.8820 |
| Excretion | ||
| Toxicity | ||
| Human Ether-a-go-go-Related Gene Inhibition | Weak inhibitor | 0.9547 |
| Non-inhibitor | 0.9746 | |
| AMES Toxicity | Non AMES toxic | 0.9633 |
| Carcinogens | Carcinogens | 0.6640 |
| Fish Toxicity | Low FHMT | 0.6181 |
| Tetrahymena Pyriformis Toxicity | Low TPT | 0.6631 |
| Honey Bee Toxicity | High HBT | 0.8315 |
| Biodegradation | Ready biodegradable | 0.7326 |
| Acute Oral Toxicity | III | 0.5846 |
| Carcinogenicity (Three-class) | Warning | 0.4769 |
| Model | Value | Unit |
|---|---|---|
| Absorption | ||
| Aqueous solubility | -1.0958 | LogS |
| Caco-2 Permeability | 1.6017 | LogPapp, cm/s |
| Distribution | ||
| Metabolism | ||
| Excretion | ||
| Toxicity | ||
| Rat Acute Toxicity | 2.0135 | LD50, mol/kg |
| Fish Toxicity | 1.5413 | pLC50, mg/L |
| Tetrahymena Pyriformis Toxicity | -0.7156 | pIGC50, ug/L |
References
| Title | Journal | Date | Pubmed ID |
|---|---|---|---|
| Trace elements in seafood from the Mediterranean sea: An exposure riskassessment. | Food Chem Toxicol | 2018 May | 29510219 |
| Isoflavones Production and Possible Mechanism of Their Exudation in <i>Genista tinctoria</i> L. Suspension Culture after Treatment with Vanadium Compounds. | Molecules | 2018 Jul 3 | 29970854 |
| Release of aluminium and thallium ions from uncoated food contact materials made of aluminium alloys into food and food simulant. | PLoS One | 2018 Jul 23 | 30036389 |
| Isolation of a novel compound (MIMO2) from the methanolic extract of Moringaoleifera leaves: protective effects against vanadium-induced cytotoxity. | Drug Chem Toxicol | 2018 Jul | 28925291 |
| A Limited Survey of Metal Content in Blue Jack Mackerel ( Trachurus picturatus) Obtained from Markets in the Canary Islands. | J Food Prot | 2018 Feb | 29320235 |
| Vanadium toxicity in chickpea (Cicer arietinum L.) grown in red soil: Effects on cell death, ROS and antioxidative systems. | Ecotoxicol Environ Saf | 2018 Aug 30 | 29677596 |
| Toxic metal levels in cocoa powder and chocolate by ICP-MS method after microwave-assisted digestion. | Food Chem | 2018 Apr 15 | 29287336 |
| Genotoxicity of 11 heavy metals detected as food contaminants in two human cell lines. | Environ Mol Mutagen | 2018 Apr | 29150881 |
| Backscattered electron imaging and electron backscattered diffraction in thestudy of bacterial attachment to titanium alloy structure. | J Microsc | 2018 Apr | 29023718 |
| A Global Overview of Exposure Levels and Biological Effects of Trace Elements in Penguins. | Rev Environ Contam Toxicol | 2018 | 29079931 |
| Comparative Analysis on the Effect of Plantago Species Aqueous Extracts on Tissue Trace Element Content in Rats. | Biol Trace Elem Res | 2017 Sep | 28093694 |
| Vanadium exposure-induced striatal learning and memory alterations in rats. | Neurotoxicology | 2017 Sep | 28625925 |
| Environmental assessment of potential toxic trace element contents in the inundated floodplain area of Tablas de Daimiel wetland (Spain). | Environ Geochem Health | 2017 Oct | 27743134 |
| Concentrations of Trace Elements in Hemodialysis Patients: A Prospective CohortStudy. | Am J Kidney Dis | 2017 Nov | 28838766 |
| Effect of vanadium on calcium homeostasis, osteopontin mRNA expression, and bone microarchitecture in diabetic rats. | Metallomics | 2017 Mar 22 | 28194470 |
| Selenium, Vanadium, and Chromium as Micronutrients to Improve Metabolic Syndrome. | Curr Hypertens Rep | 2017 Mar | 28197835 |
| Investigation of Phenols Activity in Early Stage Oxidation of Edible Oils byElectron Paramagnetic Resonance and 19F NMR Spectroscopies Using Novel LipidVanadium Complexes As Radical Initiators. | J Agric Food Chem | 2017 Jun 21 | 28582612 |
| Effect of Feeding and Withdrawal of Vanadium and Vitamin C on Egg Quality andVanadium Residual Over Time in Laying Hens. | Biol Trace Elem Res | 2017 Jun | 27866356 |
| Quantitative proteomic analysis reveals the role of tea polyphenol EGCG in eggwhites in response to vanadium stress. | Nutrition | 2017 Jul - Aug | 28606566 |
| Preliminary investigation of mineral content of pollen collected from differentSerbian maize hybrids - is there any potential nutritional value? | J Sci Food Agric | 2017 Jul | 27778338 |
Targets
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Gene Name:
- PTPRA
- Uniprot ID:
- P18433
- Molecular Weight:
- 90599.295 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Non-membrane spanning protein tyrosine phosphatase activity
- Specific Function:
- May act at junctions between the membrane and the cytoskeleton.
- Gene Name:
- PTPN4
- Uniprot ID:
- P29074
- Molecular Weight:
- 105910.315 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- May regulate the activity of several effector molecules involved in synaptic plasticity and neuronal cell survival, including MAPKs, Src family kinases and NMDA receptors.
- Gene Name:
- PTPN5
- Uniprot ID:
- P54829
- Molecular Weight:
- 63537.53 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- Protein-tyrosine phosphatase that could participate in the transfer of hydrophobic ligands or in functions of the Golgi apparatus.
- Gene Name:
- PTPN9
- Uniprot ID:
- P43378
- Molecular Weight:
- 68019.58 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Modulates signaling by tyrosine phosphorylated cell surface receptors such as KIT and the EGF receptor/EGFR. The SH2 regions may interact with other cellular components to modulate its own phosphatase activity against interacting substrates. Together with MTUS1, induces UBE2V2 expression upon angiotensin II stimulation. Plays a key role in hematopoiesis.
- Gene Name:
- PTPN6
- Uniprot ID:
- P29350
- Molecular Weight:
- 67560.79 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Steroid hormone binding
- Specific Function:
- This is the catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of sodium and potassium ions across the plasma membrane. This action creates the electrochemical gradient of sodium and potassium, providing the energy for active transport of various nutrients.
- Gene Name:
- ATP1A2
- Uniprot ID:
- P50993
- Molecular Weight:
- 112264.385 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Steroid hormone binding
- Specific Function:
- This is the catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of sodium and potassium ions across the plasma membrane. This action creates the electrochemical gradient of sodium and potassium ions, providing the energy for active transport of various nutrients.
- Gene Name:
- ATP1A3
- Uniprot ID:
- P13637
- Molecular Weight:
- 111747.51 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Sodium:potassium-exchanging atpase activity
- Specific Function:
- This is the non-catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of Na(+) and K(+) ions across the plasma membrane. The beta subunit regulates, through assembly of alpha/beta heterodimers, the number of sodium pumps transported to the plasma membrane.Involved in cell adhesion and establishing epithelial cell polarity.
- Gene Name:
- ATP1B1
- Uniprot ID:
- P05026
- Molecular Weight:
- 35061.07 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Sodium:potassium-exchanging atpase activity
- Specific Function:
- This is the non-catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of Na(+) and K(+) ions across the plasma membrane. The exact function of the beta-2 subunit is not known.Mediates cell adhesion of neurons and astrocytes, and promotes neurite outgrowth.
- Gene Name:
- ATP1B2
- Uniprot ID:
- P14415
- Molecular Weight:
- 33366.925 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Sodium:potassium-exchanging atpase activity
- Specific Function:
- This is the non-catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of Na(+) and K(+) ions across the plasma membrane. The exact function of the beta-3 subunit is not known.
- Gene Name:
- ATP1B3
- Uniprot ID:
- P54709
- Molecular Weight:
- 31512.34 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Transporter activity
- Specific Function:
- May be involved in forming the receptor site for cardiac glycoside binding or may modulate the transport function of the sodium ATPase.
- Gene Name:
- FXYD2
- Uniprot ID:
- P54710
- Molecular Weight:
- 7283.265 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Protein tyrosine/serine/threonine phosphatase activity
- Specific Function:
- Protein tyrosine phosphatase which stimulates progression from G1 into S phase during mitosis. May play a role in the development and maintenance of differentiating epithelial tissues. Enhances cell proliferation, cell motility and invasive activity, and promotes cancer metastasis.
- Gene Name:
- PTP4A1
- Uniprot ID:
- Q93096
- Molecular Weight:
- 19814.93 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Prenylated protein tyrosine phosphatase activity
- Specific Function:
- Protein tyrosine phosphatase which stimulates progression from G1 into S phase during mitosis. Promotes tumors. Inhibits geranylgeranyl transferase type II activity by blocking the association between RABGGTA and RABGGTB.
- Gene Name:
- PTP4A2
- Uniprot ID:
- Q12974
- Molecular Weight:
- 19127.05 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine/serine/threonine phosphatase activity
- Specific Function:
- Protein tyrosine phosphatase which stimulates progression from G1 into S phase during mitosis. Enhances cell proliferation, cell motility and invasive activity, and promotes cancer metastasis. May be involved in the progression of cardiac hypertrophy by inhibiting intracellular calcium mobilization in response to angiotensin II.
- Gene Name:
- PTP4A3
- Uniprot ID:
- O75365
- Molecular Weight:
- 19534.69 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Possible cell adhesion receptor. It possesses an intrinsic protein tyrosine phosphatase activity (PTPase) and dephosphorylates EPHA2 regulating its activity.The first PTPase domain has enzymatic activity, while the second one seems to affect the substrate specificity of the first one.
- Gene Name:
- PTPRF
- Uniprot ID:
- P10586
- Molecular Weight:
- 212877.35 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Plays a role in vesicle-mediated secretory processes. Required for normal accumulation of secretory vesicles in hippocampus, pituitary and pancreatic islets. Required for the accumulation of normal levels of insulin-containing vesicles and preventing their degradation. Plays a role in insulin secretion in response to glucose stimuli. Required for normal accumulation of the neurotransmitters norepinephrine, dopamine and serotonin in the brain. In females, but not in males, required for normal accumulation and secretion of pituitary hormones, such as luteinizing hormone (LH) and follicle-stimulating hormone (FSH).
- Gene Name:
- PTPRN2
- Uniprot ID:
- Q92932
- Molecular Weight:
- 111270.29 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Wnt-protein binding
- Specific Function:
- Possesses tyrosine phosphatase activity. Plays a role in regulating the glomerular pressure/filtration rate relationship through an effect on podocyte structure and function (By similarity).
- Gene Name:
- PTPRO
- Uniprot ID:
- Q16827
- Molecular Weight:
- 138342.845 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Sequesters mitogen-activated protein kinases (MAPKs) such as MAPK1, MAPK3 and MAPK14 in the cytoplasm in an inactive form. The MAPKs bind to a dephosphorylated kinase interacting motif, phosphorylation of which by the protein kinase A complex releases the MAPKs for activation and translocation into the nucleus (By similarity).
- Gene Name:
- PTPRR
- Uniprot ID:
- Q15256
- Molecular Weight:
- 73833.73 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Interacts with LAR-interacting protein LIP.1.
- Gene Name:
- PTPRS
- Uniprot ID:
- Q13332
- Molecular Weight:
- 217039.825 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Gene Name:
- PTPRD
- Uniprot ID:
- P23468
- Molecular Weight:
- 214758.455 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- Tyrosine phosphatase which dephosphorylates or contributes to the dephosphorylation of CTNND1, FLT3, PDGFRB, MET, RET (variant MEN2A), KDR, LYN, SRC, MAPK1, MAPK3, EGFR, TJP1, OCLN, PIK3R1 and PIK3R2. Plays a role in cell adhesion, migration, proliferation and differentiation. Involved in vascular development. Regulator of macrophage adhesion and spreading. Positively affects cell-matrix adhesion. Positive regulator of platelet activation and thrombosis. Negative regulator of cell proliferation. Negative regulator of PDGF-stimulated cell migration; through dephosphorylation of PDGFR. Positive regulator of endothelial cell survival, as well as of VEGF-induced SRC and AKT activation; through KDR dephosphorylation. Negative regulator of EGFR signaling pathway; through EGFR dephosphorylation. Enhances the barrier function of epithelial junctions during reassembly. Negatively regulates T-cell receptor (TCR) signaling. Upon T-cell TCR activation, it is up-regulated and excluded from the immunological synapses, while upon T-cell-antigen presenting cells (APC) disengagement, it is no longer excluded and can dephosphorylate PLCG1 and LAT to down-regulate prolongation of signaling.
- Gene Name:
- PTPRJ
- Uniprot ID:
- Q12913
- Molecular Weight:
- 145940.37 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Possesses tyrosine phosphatase activity.
- Gene Name:
- PTPRG
- Uniprot ID:
- P23470
- Molecular Weight:
- 162002.3 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Regulation of processes involving cell contact and adhesion such as growth control, tumor invasion, and metastasis. Negative regulator of EGFR signaling pathway. Forms complexes with beta-catenin and gamma-catenin/plakoglobin. Beta-catenin may be a substrate for the catalytic activity of PTPRK/PTP-kappa.
- Gene Name:
- PTPRK
- Uniprot ID:
- Q15262
- Molecular Weight:
- 162100.87 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Involved in cell-cell adhesion through homophilic interactions. May play a key role in signal transduction and growth control.
- Gene Name:
- PTPRM
- Uniprot ID:
- P28827
- Molecular Weight:
- 163681.285 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Protein tyrosine phosphatase that negatively regulates oligodendrocyte precursor proliferation in the embryonic spinal cord. Required for normal differentiation of the precursor cells into mature, fully myelinating oligodendrocytes. May play a role in protecting oligondendrocytes against apoptosis. May play a role in the establishment of contextual memory, probably via the dephosphorylation of proteins that are part of important signaling cascades (By similarity).
- Gene Name:
- PTPRZ1
- Uniprot ID:
- P23471
- Molecular Weight:
- 254585.05 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- Protein phosphatase that acts preferentially on tyrosine-phosphorylated MAPK1. Plays a role in the regulation of T and B-lymphocyte development and signal transduction.
- Gene Name:
- PTPN7
- Uniprot ID:
- P35236
- Molecular Weight:
- 40528.965 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Spectrin binding
- Specific Function:
- Plays a role in vesicle-mediated secretory processes (PubMed:24843546). Required for normal accumulation of secretory vesicles in hippocampus, pituitary and pancreatic islets (By similarity). Required for the accumulation of normal levels of insulin-containing vesicles and preventing their degradation (PubMed:24843546). Plays a role in insulin secretion in response to glucose stimuli (PubMed:24843546). Required for normal accumulation of the neurotransmitters norepinephrine, dopamine and serotonin in the brain (By similarity). In females, but not in males, required for normal accumulation and secretion of pituitary hormones, such as luteinizing hormone (LH) and follicle-stimulating hormone (FSH) (By similarity). Seems to lack intrinsic enzyme activity (By similarity).
- Gene Name:
- PTPRN
- Uniprot ID:
- Q16849
- Molecular Weight:
- 105846.52 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Sh3/sh2 adaptor activity
- Specific Function:
- Acts downstream of various receptor and cytoplasmic protein tyrosine kinases to participate in the signal transduction from the cell surface to the nucleus. Dephosphorylates ROCK2 at Tyr-722 resulting in stimulatation of its RhoA binding activity.
- Gene Name:
- PTPN11
- Uniprot ID:
- Q06124
- Molecular Weight:
- 68436.0 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Sh3 domain binding
- Specific Function:
- Dephosphorylates cellular tyrosine kinases, including PTK2B/PYK2, and thereby regulates signaling via PTK2B/PYK2.
- Gene Name:
- PTPN12
- Uniprot ID:
- Q05209
- Molecular Weight:
- 88105.665 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- Tyrosine phosphatase which regulates negatively FAS-induced apoptosis and NGFR-mediated pro-apoptotic signaling (PubMed:15611135). May regulate phosphoinositide 3-kinase (PI3K) signaling through dephosphorylation of PIK3R2 (PubMed:23604317).
- Gene Name:
- PTPN13
- Uniprot ID:
- Q12923
- Molecular Weight:
- 276903.22 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transcription cofactor activity
- Specific Function:
- Protein tyrosine phosphatase which may play a role in the regulation of lymphangiogenesis, cell-cell adhesion, cell-matrix adhesion, cell migration, cell growth and also regulates TGF-beta gene expression, thereby modulating epithelial-mesenchymal transition. Mediates beta-catenin dephosphorylation at adhesion junctions. Acts as a negative regulator of the oncogenic property of YAP, a downstream target of the hippo pathway, in a cell density-dependent manner. May function as a tumor suppressor.
- Gene Name:
- PTPN14
- Uniprot ID:
- Q15678
- Molecular Weight:
- 135260.15 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Non-membrane spanning protein tyrosine phosphatase activity
- Specific Function:
- Differentially dephosphorylate autophosphorylated tyrosine kinases which are known to be overexpressed in tumor tissues.
- Gene Name:
- PTPN18
- Uniprot ID:
- Q99952
- Molecular Weight:
- 50481.995 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- Tyrosine-protein phosphatase targeted to sites of actin polymerization in response of varied extracellular stimuli. Has tyrosine phosphatase activity towards various tyrosyl phosphorylated substrates.
- Gene Name:
- PTPN20
- Uniprot ID:
- Q4JDL3
- Molecular Weight:
- 48422.455 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Gene Name:
- PTPN21
- Uniprot ID:
- Q16825
- Molecular Weight:
- 133279.965 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Ubiquitin protein ligase binding
- Specific Function:
- Acts as negative regulator of T-cell receptor (TCR) signaling by direct dephosphorylation of the Src family kinases LCK and FYN, ITAMs of the TCRz/CD3 complex, as well as ZAP70, VAV, VCP and other key signaling molecules (PubMed:16461343, PubMed:18056643). Associates with and probably dephosphorylates CBL. Dephosphorylates LCK at its activating 'Tyr-394' residue (PubMed:21719704). Dephosphorylates ZAP70 at its activating 'Tyr-493' residue (PubMed:16461343). Dephosphorylates the immune system activator SKAP2 (PubMed:21719704). Positively regulates toll-like receptor (TLR)-induced type 1 interferon production (PubMed:23871208). Promotes host antiviral responses mediated by type 1 interferon (By similarity). Regulates NOD2-induced pro-inflammatory cytokine secretion and autophagy (PubMed:23991106).
- Gene Name:
- PTPN22
- Uniprot ID:
- Q9Y2R2
- Molecular Weight:
- 91703.92 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Sodium channel regulator activity
- Specific Function:
- May act at junctions between the membrane and the cytoskeleton. Possesses tyrosine phosphatase activity.
- Gene Name:
- PTPN3
- Uniprot ID:
- P26045
- Molecular Weight:
- 103989.11 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- May be involved in both signal transduction and cellular adhesion in the CNS.
- Gene Name:
- PTPRT
- Uniprot ID:
- O14522
- Molecular Weight:
- 162132.92 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Tyrosine-protein phosphatase which dephosphorylates CTNNB1. Regulates CTNNB1 function both in cell adhesion and signaling. May function in cell proliferation and migration and play a role in the maintenance of epithelial integrity. May play a role in megakaryocytopoiesis.
- Gene Name:
- PTPRU
- Uniprot ID:
- Q92729
- Molecular Weight:
- 162422.095 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Steroid hormone binding
- Specific Function:
- This is the catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of sodium and potassium ions across the plasma membrane. This action creates the electrochemical gradient of sodium and potassium ions, providing the energy for active transport of various nutrients.
- Gene Name:
- ATP1A1
- Uniprot ID:
- P05023
- Molecular Weight:
- 112895.01 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Sodium:potassium-exchanging atpase activity
- Specific Function:
- This is the catalytic component of the active enzyme, which catalyzes the hydrolysis of ATP coupled with the exchange of sodium and potassium ions across the plasma membrane. This action creates the electrochemical gradient of sodium and potassium ions, providing the energy for active transport of various nutrients. Plays a role in sperm motility.
- Gene Name:
- ATP1A4
- Uniprot ID:
- Q13733
- Molecular Weight:
- 114165.44 Da
- Mechanism of Action:
- The pentavalent form of vanadium, vanadate, is a potent inhibitor of the Ca+-ATPase and Na+,K+-ATPase of plasma membranes, which decreases intracellular ATP concentration.
References
- Foller M, Sopjani M, Mahmud H, Lang F: Vanadate-induced suicidal erythrocyte death. Kidney Blood Press Res. 2008;31(2):87-93. doi: 10.1159/000119704. Epub 2008 Mar 5. [18319605 ]
- General Function:
- Protein tyrosine/serine/threonine phosphatase activity
- Specific Function:
- Lipid phosphatase which dephosphorylates phosphatidylglycerophosphate (PGP) to phosphatidylglycerol (PG). PGP is an essential intermediate in the biosynthetic pathway of cardiolipin, a mitochondrial-specific phospholipid regulating the membrane integrity and activities of the organelle. Has also been shown to display phosphatase activity toward phosphoprotein substrates, specifically mediates dephosphorylation of mitochondrial proteins, thereby playing an essential role in ATP production. Has probably a preference for proteins phosphorylated on Ser and/or Thr residues compared to proteins phosphorylated on Tyr residues. Probably involved in regulation of insulin secretion in pancreatic beta cells (By similarity).
- Gene Name:
- PTPMT1
- Uniprot ID:
- Q8WUK0
- Molecular Weight:
- 22843.38 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- May contribute to contact inhibition of cell growth and motility by mediating the dephosphorylation of focal adhesion-associated substrates and thus negatively regulating integrin-promoted signaling processes. Induces apoptotic cell death by at least two distinct mechanisms: inhibition of cell survival signaling mediated by PI 3-kinase, Akt, and ILK and activation of a caspase-dependent proapoptotic pathway. Inhibits the basal activity of LCK and its activation in response to TCR stimulation and TCR-induced activation of MAP kinase and surface expression of CD69. Inhibits TCR-induced tyrosine phosphorylation of LAT and ZAP70. Inhibits both basal activity of DOK1 and its CD2-induced tyrosine phosphorylation. Induces dephosphorylation of p130cas, focal adhesion kinase and c-Src. Reduces migratory activity of Jurkat cells.
- Gene Name:
- PTPRH
- Uniprot ID:
- Q9HD43
- Molecular Weight:
- 122351.35 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Plays an important role in blood vessel remodeling and angiogenesis. Not necessary for the initial formation of blood vessels, but is essential for their maintenance and remodeling. Can induce dephosphorylation of TEK/TIE2, CDH5/VE-cadherin and KDR/VEGFR-2. Regulates angiopoietin-TIE2 signaling in endothelial cells. Acts as a negative regulator of TIE2, and controls TIE2 driven endothelial cell proliferation, which in turn affects blood vessel remodeling during embryonic development and determines blood vessel size during perinatal growth. Essential for the maintenance of endothelial cell contact integrity and for the adhesive function of VE-cadherin in endothelial cells and this requires the presence of plakoglobin (By similarity).
- Gene Name:
- PTPRB
- Uniprot ID:
- P23467
- Molecular Weight:
- 224299.74 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Transmembrane receptor protein tyrosine phosphatase activity
- Specific Function:
- Isoform 1 plays a critical role in signaling transduction pathways and phosphoprotein network topology in red blood cells. May play a role in osteoclast formation and function (By similarity).Isoform 2 acts as a negative regulator of insulin receptor (IR) signaling in skeletal muscle. Regulates insulin-induced tyrosine phosphorylation of insulin receptor (IR) and insulin receptor substrate 1 (IRS-1), phosphorylation of protein kinase B and glycogen synthase kinase-3 and insulin induced stimulation of glucose uptake (By similarity).Isoform 1 and isoform 2 act as a negative regulator of FceRI-mediated signal transduction leading to cytokine production and degranulation, most likely by acting at the level of SYK to affect downstream events such as phosphorylation of SLP76 and LAT and mobilization of Ca(2+).
- Gene Name:
- PTPRE
- Uniprot ID:
- P23469
- Molecular Weight:
- 80641.165 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Zinc ion binding
- Specific Function:
- Tyrosine-protein phosphatase which acts as a regulator of endoplasmic reticulum unfolded protein response. Mediates dephosphorylation of EIF2AK3/PERK; inactivating the protein kinase activity of EIF2AK3/PERK. May play an important role in CKII- and p60c-src-induced signal transduction cascades. May regulate the EFNA5-EPHA3 signaling pathway which modulates cell reorganization and cell-cell repulsion. May also regulate the hepatocyte growth factor receptor signaling pathway through dephosphorylation of MET.
- Gene Name:
- PTPN1
- Uniprot ID:
- P18031
- Molecular Weight:
- 49966.44 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Syntaxin binding
- Specific Function:
- Non-receptor type tyrosine-specific phosphatase that dephosphorylates receptor protein tyrosine kinases including INSR, EGFR, CSF1R, PDGFR. Also dephosphorylates non-receptor protein tyrosine kinases like JAK1, JAK2, JAK3, Src family kinases, STAT1, STAT3, STAT5A, STAT5B and STAT6 either in the nucleus or the cytoplasm. Negatively regulates numerous signaling pathways and biological processes like hematopoiesis, inflammatory response, cell proliferation and differentiation, and glucose homeostasis. Plays a multifaceted and important role in the development of the immune system. Functions in T-cell receptor signaling through dephosphorylation of FYN and LCK to control T-cells differentiation and activation. Dephosphorylates CSF1R, negatively regulating its downstream signaling and macrophage differentiation. Negatively regulates cytokine (IL2/interleukin-2 and interferon)-mediated signaling through dephosphorylation of the cytoplasmic kinases JAK1, JAK3 and their substrate STAT1, that propagate signaling downstream of the cytokine receptors. Also regulates the IL6/interleukin-6 and IL4/interleukin-4 cytokine signaling through dephosphorylation of STAT3 and STAT6 respectively. In addition to the immune system, it is involved in anchorage-dependent, negative regulation of EGF-stimulated cell growth. Activated by the integrin ITGA1/ITGB1, it dephosphorylates EGFR and negatively regulates EGF signaling. Dephosphorylates PDGFRB and negatively regulates platelet-derived growth factor receptor-beta signaling pathway and therefore cell proliferation. Negatively regulates tumor necrosis factor-mediated signaling downstream via MAPK through SRC dephosphorylation. May also regulate the hepatocyte growth factor receptor signaling pathway through dephosphorylation of the hepatocyte growth factor receptor MET. Plays also an important role in glucose homeostasis. For instance, negatively regulates the insulin receptor signaling pathway through the dephosphorylation of INSR and control gluconeogenesis and liver glucose production through negative regulation of the IL6 signaling pathways. Finally, it negatively regulates prolactin-mediated signaling pathway through dephosphorylation of STAT5A and STAT5B. May also bind DNA.
- Gene Name:
- PTPN2
- Uniprot ID:
- P17706
- Molecular Weight:
- 48472.94 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]
- General Function:
- Protein tyrosine phosphatase activity
- Specific Function:
- Plays a role in sorting of endocytic ubiquitinated cargos into multivesicular bodies (MVBs) via its interaction with the ESCRT-I complex (endosomal sorting complex required for transport I), and possibly also other ESCRT complexes. May act as a negative regulator of Ras-mediated mitogenic activity. Plays a role in ciliogenesis.
- Gene Name:
- PTPN23
- Uniprot ID:
- Q9H3S7
- Molecular Weight:
- 178971.945 Da
- Mechanism of Action:
- Vanadium inhibits protein tyrosine phosphatases, producing insulin-like effects.
References
- Wang J, Yuen VG, McNeill JH: Effect of vanadium on insulin sensitivity and appetite. Metabolism. 2001 Jun;50(6):667-73. [11398143 ]