Hepatocyte growth factor
Hepatocyte growth factor (HGF) (or scatter factor (SF) is a paracrine cellular growth, motility and morphogenic factor. It is secreted by mesenchymal cells and targets and acts primarily upon epithelial cells and endothelial cells, but also acts on haemopoietic progenitor cells and T cells. It has been shown to have a major role in embryonic organ development, specifically in myogenesis, in adult organ regeneration, and in wound healing.[5]
Function
Hepatocyte growth factor regulates cell growth, cell motility, and morphogenesis by activating a tyrosine kinase signaling cascade after binding to the proto-oncogenic c-Met receptor.[6][7] Hepatocyte growth factor is secreted by mesenchymal cells and acts as a multi-functional cytokine on cells of mainly epithelial origin. Its ability to stimulate mitogenesis, cell motility, and matrix invasion gives it a central role in angiogenesis, tumorogenesis, and tissue regeneration.[8]
Structure
It is secreted as a single inactive polypeptide and is cleaved by serine proteases into a 69-kDa alpha-chain and 34-kDa beta-chain. A disulfide bond between the alpha and beta chains produces the active, heterodimeric molecule. The protein belongs to the plasminogen subfamily of S1 peptidases but has no detectable protease activity.[8]
Clinical significance
Human HGF plasmid DNA therapy of cardiomyocytes is being examined as a potential treatment for coronary artery disease as well as treatment for the damage that occurs to the heart after myocardial infarction.[9][10] As well as the well-characterised effects of HGF on epithelial cells, endothelial cells and haemopoietic progenitor cells, HGF also regulates the chemotaxis of T cells into heart tissue. Binding of HGF by c-Met, expressed on T cells, causes the upregulation of c-Met, CXCR3, and CCR4 which in turn imbues them with the ability to migrate into heart tissue.[11]
HGF may further play a role as an indicator for prognosis of chronicity for Chikungunya virus induced arthralgia. High HGF levels correlate with high rates of recovery.[12]
Excessive local expression of HGF in the breasts has been implicated in macromastia.[13] HGF is also importantly involved in normal mammary gland development.[14][15]
HGF has been implicated in a variety of cancers, including of the lungs, pancreas, thyroid, colon, and breast.[16][17][18]
Circulating plasma levels
Plasma from patients with advanced heart failure presents increased levels of HGF, which correlates with a negative prognosis and a high risk of mortality.[19][20] Circulating HGF has been also identified as a prognostic marker of severity in patients suffering from hypertension.[21][21] Circulating HGF has been also suggested as a precocious biomarker for the acute phase of bowel inflammation.[22]
Pharmacokinetics
Exogenous HGF administered by intravenous injection is cleared rapidly from circulation by the liver, with a half-life of approximately 4 minutes.[23][24][25][26]
Modulators
Dihexa is an orally active, centrally penetrant small-molecule compound that directly binds to HGF and potentiates its ability to activate its receptor, c-Met.[27] It is a strong inducer of neurogenesis and is being studied for the potential treatment of Alzheimer's disease and Parkinson's disease.[28][29]
Interactions
Hepatocyte growth factor has been shown to interact with the protein product of the c-Met oncogene, identified as the HGF receptor (HGFR).[6][30][31] Both overexpression of the Met/HGFR receptor protein and autocrine activation of Met/HGFR by simultaneous expression of the hepatocyte growth factor ligand have been implicated in oncogenesis.[32][33] Hepatocyte growth factor interacts with the sulfated glycosaminoglycans heparan sulfate and dermatan sulfate.[34][35] The interaction with heparan suflate allows hepatocyte growth factor to form a complex with c-Met that is able to transduce intracellular signals leading to cell division and cell migration.[34][36]
See also
References
- ^ a b c GRCh38: Ensembl release 89: ENSG00000019991 – Ensembl, May 2017
- ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000028864 – Ensembl, May 2017
- ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ Gallagher, J.T., Lyon, M. (2000). "Molecular structure of Heparan Sulfate and interactions with growth factors and morphogens". In Iozzo, M, V. (ed.). Proteoglycans: structure, biology and molecular interactions. Marcel Dekker Inc. New York, New York. pp. 27–59.
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- ^ Thomas R. Ziegler; Glenn F. Pierce; David N. Herndon (6 December 2012). Growth Factors and Wound Healing: Basic Science and Potential Clinical Applications. Springer Science & Business Media. pp. 311–. ISBN 978-1-4612-1876-0.
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- ^ a b Nakamura S, Morishita R, Moriguchi A, Yo Y, Nakamura Y, Hayashi S, Matsumoto K, Matsumoto K, Nakamura T, Higaki J, Ogihara T (December 1998). "Hepatocyte growth factor as a potential index of complication in diabetes mellitus". Journal of Hypertension. 16 (12 Pt 2): 2019–26. doi:10.1291/hypres.22.161. PMID 9886892.
- ^ Sorour AE, Lönn J, Nakka SS, Nayeri T, Nayeri F (January 2015). "Evaluation of hepatocyte growth factor as a local acute phase response marker in the bowel: the clinical impact of a rapid diagnostic test for immediate identification of acute bowel inflammation". Cytokine. 71 (1): 8–15. doi:10.1016/j.cyto.2014.07.255. PMID 25174881.
- ^ Yang J, Chen S, Huang L, Michalopoulos GK, Liu Y (April 2001). "Sustained expression of naked plasmid DNA encoding hepatocyte growth factor in mice promotes liver and overall body growth". Hepatology. 33 (4): 848–59. doi:10.1053/jhep.2001.23438. PMC 1821076. PMID 11283849.
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- ^ Kato Y, Liu KX, Nakamura T, Sugiyama Y (August 1994). "Heparin-hepatocyte growth factor complex with low plasma clearance and retained hepatocyte proliferating activity". Hepatology. 20 (2): 417–24. doi:10.1002/hep.1840200223. PMID 8045504.
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: CS1 maint: unflagged free DOI (link)
Further reading
- Michalopoulos GK, Zarnegar R (1992). "Hepatocyte Growth Factor". Hepatology. 15 (1): 149–54. doi:10.1002/hep.1840150125.
- Nakamura T (1992). "Structure and function of hepatocyte growth factor". Progress in Growth Factor Research. 3 (1): 67–85. doi:10.1016/0955-2235(91)90014-U. PMID 1838014.
- Ware LB, Matthay MA (May 2002). "Keratinocyte and hepatocyte growth factors in the lung: roles in lung development, inflammation, and repair". American Journal of Physiology. Lung Cellular and Molecular Physiology. 282 (5): L924-40. doi:10.1152/ajplung.00439.2001. PMID 11943656.
- Funakoshi H, Nakamura T (January 2003). "Hepatocyte growth factor: from diagnosis to clinical applications". Clinica Chimica Acta; International Journal of Clinical Chemistry. 327 (1–2): 1–23. doi:10.1016/S0009-8981(02)00302-9. PMID 12482615.
- Skibinski G (2004). "The role of hepatocyte growth factor/c-met interactions in the immune system". Archivum Immunologiae Et Therapiae Experimentalis. 51 (5): 277–82. PMID 14626426.
- Kalluri R, Neilson EG (December 2003). "Epithelial-mesenchymal transition and its implications for fibrosis". The Journal of Clinical Investigation. 112 (12): 1776–84. doi:10.1172/JCI20530. PMC 297008. PMID 14679171.
- Hurle RA, Davies G, Parr C, Mason MD, Jenkins SA, Kynaston HG, Jiang WG (October 2005). "Hepatocyte growth factor/scatter factor and prostate cancer: a review". Histology and Histopathology. 20 (4): 1339–49. doi:10.14670/HH-20.1339. PMID 16136515.
- Kemp LE, Mulloy B, Gherardi E (June 2006). "Signalling by HGF/SF and Met: the role of heparan sulphate co-receptors". Biochemical Society Transactions. 34 (Pt 3): 414–7. doi:10.1042/BST0340414. PMID 16709175.
External links
- Hepatocyte+growth+factor at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
- Hepatocyte growth factor on the Atlas of Genetics and Oncology
- UCSD Signaling Gateway Molecule Page on HGF