Biology:Heparanase

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Short description: Mammalian protein found in Homo sapiens


A representation of the 3D structure of the protein myoglobin showing turquoise α-helices.
Generic protein structure example

Heparanase, also known as HPSE, is an enzyme that acts both at the cell-surface and within the extracellular matrix to degrade polymeric heparan sulfate molecules into shorter chain length oligosaccharides.[1][2]

Synthesis and structure

The protein is originally synthesised in an inactive 65 kDa proheparanase form in the golgi apparatus and transferred to late endosomes/lysosomes for transport to the cell-surface. In the lysosome it is proteolytically processed into its active form. Proteolytic processing results in the production of three products,

  • a linker peptide
  • an 8 kDa proheparanase fragment and
  • a 50 kDa proheparanase fragment

The 8 kDa and 50 kDa fragments form a heterodimer and it is this heterodimer that constitutes the active heparanase molecule.[3] The linker protein is so called because prior to its excision it physically links the 8 kDa and 50 kDa proheparanase fragments. Complete excision of the linker peptide appears to be a prerequisite to the complete activation of the heparanase enzyme.

Crystal structures of both proheparanase and mature heparanase are available, showing that the linker peptide forms a large helical domain which blocks heparan sulfate molecules from interacting with heparanase.[4] Removal of the linker reveals an extended cleft on the enzyme surface, which contains the heparanase active site.[5]

Function

Heparanase has endoglycosidase activity and cleaves polymeric heparan sulfate molecules at sites which are internal within the polymeric chain.[6] The enzyme degrades the heparan sulfate scaffold of the basement membrane and extracellular matrix. It is also associated with the inflammatory process, by allowing the extravasation of activated T lymphocytes.[7] In ocular surface physiology this activity functions as an off/on switch for the prosecretory mitogen lacritin. Lacritin binds the cell surface heparan sulfate proteoglycan syndecan-1 only in the presence of active heparanase. Heparanase partially or completely cleaves heparan sulfate to expose a binding site in the N-terminal 50 amino acids of syndecan-1.[8]

Clinical significance

The successful penetration of the endothelial cell layer that lines the interior surface of blood vessels is an important process in the formation of blood borne tumour metastases. Heparan sulfate proteoglycans are major constituents of this layer and it has been shown that increased metastatic potential corresponds with increased heparanase activity for a number of cell lines.[9][10] Due to the contribution of heparanase activity to metastasis and also to angiogenesis, the inhibition of heparanase activity it is considered to be a potential target for anti-cancer therapies.[11][12]

Heparanase has been shown to promote arterial thrombosis and stent thrombosis in mouse models due to the cleavage of anti-coagulant heparan sulfate proteoglycans.[13]

References

  1. "Mammalian heparanase: gene cloning, expression and function in tumor progression and metastasis". Nature Medicine 5 (7): 793–802. July 1999. doi:10.1038/10518. PMID 10395325. 
  2. "Cloning of mammalian heparanase, an important enzyme in tumor invasion and metastasis". Nature Medicine 5 (7): 803–9. July 1999. doi:10.1038/10525. PMID 10395326. 
  3. "Heparanase: structure, biological functions, and inhibition by heparin-derived mimetics of heparan sulfate". Curr. Pharm. Des. 13 (20): 2057–2073. 2007. doi:10.2174/138161207781039742. PMID 17627539. 
  4. "Activity-based probes for functional interrogation of retaining β-glucuronidases". Nat. Chem. Biol. 13 (8): 867–873. 2017. doi:10.1038/nchembio.2395. PMID 28581485. http://eprints.whiterose.ac.uk/117420/1/Accepted_Version.pdf. 
  5. "Structural characterization of human heparanase reveals insights into substrate recognition". Nat. Struct. Mol. Biol. 22 (12): 1016–1022. 2015. doi:10.1038/nsmb.3136. PMID 26575439. 
  6. "Substrate specificity of heparanases from human hepatoma and platelets.". J. Biol. Chem. 273 (30): 18770–7. 1998. doi:10.1074/jbc.273.30.18770. PMID 9668050. 
  7. Irony-Tur-Sinai, Michal; Vlodavsky, Israel; Ben-Sasson, Shmuel A; Pinto, Florence; Sicsic, Camille; Brenner, Talma (2003-01-15). "A synthetic heparin-mimicking polyanionic compound inhibits central nervous system inflammation". Journal of the Neurological Sciences 206 (1): 49–57. doi:10.1016/S0022-510X(02)00318-0. ISSN 0022-510X. PMID 12480085. 
  8. "Heparanase deglycanation of syndecan-1 is required for binding of the epithelial-restricted prosecretory mitogen lacritin". The Journal of Cell Biology 174 (7): 1097–106. September 2006. doi:10.1083/jcb.200511134. PMID 16982797. 
  9. "Heparanases and tumor metastasis". J. Cell. Biochem. 36 (2): 157–167. 1988. doi:10.1002/jcb.240360207. PMID 3281960. 
  10. "Mammalian heparanase: involvement in cancer metastasis, angiogenesis and normal development". Seminars in Cancer Biology 12 (2): 121–9. 2003. doi:10.1006/scbi.2001.0420. PMID 12027584. 
  11. Yang, Jian-min; Wang, Hui-ju; Du, Ling; Han, Xiao-mei; Ye, Zai-yuan; Fang, Yong; Tao, Hou-quan; Zhao, Zhong-sheng et al. (2009-01-25). "Screening and identification of novel B cell epitopes in human heparanase and their anti-invasion property for hepatocellular carcinoma" (in en). Cancer Immunology, Immunotherapy 58 (9): 1387–1396. doi:10.1007/s00262-008-0651-x. ISSN 0340-7004. PMID 19169879. 
  12. Zhang, JUN; Yang, Jianmin; Han, Xiaomei; Zhao, Zhongsheng; Du, Ling; Yu, Tong; Wang, Huiju (2012). "Overexpression of heparanase multiple antigenic peptide 2 is associated with poor prognosis in gastric cancer: Potential for therapy". Oncology Letters 4 (1): 178–182. doi:10.3892/ol.2012.703. PMID 22807984. PMC 3398369. http://www.spandidos-publications.com/ol/4/1/178. Retrieved 2016-03-29. 
  13. "Heparanase regulates thrombosis in vascular injury and stent-induced flow disturbance.". J Am Coll Cardiol 59 (17): 1551–60. 2012. doi:10.1016/j.jacc.2011.11.057. PMID 22516446. 

Further reading

External links



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