Biology:Bcl-xL

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Short description: Transmembrane molecule in the mitochondria
X-ray crystal structure of Bcl-xL with 1.76 Å resolution

B-cell lymphoma-extra large (Bcl-xL), encoded by the BCL2-like 1 gene, is a transmembrane molecule in the mitochondria. It is a member of the Bcl-2 family of proteins, and acts as an anti-apoptotic protein by preventing the release of mitochondrial contents such as cytochrome c, which leads to caspase activation and ultimately, programmed cell death.[1]

Function

It is a well-established concept in the field of apoptosis that relative amounts of pro- and anti-survival Bcl-2 family of proteins determine whether the cell will undergo cell death; if more Bcl-xL is present, then pores are non-permeable to pro-apoptotic molecules and the cell survives. However, if Bax and Bak become activated, and Bcl-xL is sequestered away by gatekeeper BH3-only factors (e.g. Bim) causing a pore to form, cytochrome c is released leading to initiation of caspase cascade and apoptotic events.[2]

While the exact signaling pathway of Bcl-xL is still not known, it is believed that Bcl-xL differs highly from Bcl-2 in their mechanism of inducing apoptosis. Bcl-xL is about ten times more functional than Bcl-2 when induced by the chemotherapy drug, Doxorubicin[3] and can specifically bind to cytochrome C residues, preventing apoptosis.[4] It can also prevent the formation of Apaf-1 and Caspase 9 complex by acting directly upon Apaf-1 rather than Caspase 9, as shown in nematode homologs.[5]

Overview of signal transduction pathways

Clinical significance

Bcl-xL dysfunction in mice can cause ineffective production of red blood cells, severe anemia, hemolysis, and death. This protein has also been shown as a requirement for heme production[6] and in erythroid lineage, Bcl-xL is a major survival factor responsible for an estimated half of the total survival "signal" proerythroblasts must receive in order to survive and become red cells. Bcl-xL promoter contains GATA-1 and Stat5 sites. This protein accumulates throughout the differentiation, ensuring the survival of erythroid progenitors. Because iron metabolism and incorporation into hemoglobin occurs inside the mitochondria, Bcl-xL was suggested to play additional roles in regulating this process in erythrocytes which could lead to a role in polycythemia vera, a disease where there is an overproduction of erythrocytes.[7]

Similar to other Bcl-2 family members, Bcl-xL has been implicated in the survival of cancer cells by inhibiting the function of p53, a tumor suppressor. In cancerous mouse cells, those which contained Bcl-xL were able to survive while those that only expressed p53 died in a small period of time.[8]

Bcl-xL is a target of various senolytic agents. Studies of cell cultures of senescent human umbilical vein endothelial cells have shown that both fisetin and quercetin induce apoptosis by inhibition of Bcl-xL.[9] Fisetin has roughly twice the senolytic potency as quercetin.[10]

Small molecule Bcl-xL inhibitor that directly binds to Bcl-xL and releases their partner such as Bax, a proapoptotic protein, has been suggested as an anticancer strategy via inducing of apoptosis. [citation needed]

Related proteins

Other Bcl-2 proteins include Bcl-2, Bcl-w, Bcl-xs, and Mcl-1.

References

  1. "Regulators of cell death". Trends in Genetics 11 (3): 101–105. March 1995. doi:10.1016/S0168-9525(00)89010-1. PMID 7732571. 
  2. "Bax-induced caspase activation and apoptosis via cytochrome c release from mitochondria is inhibitable by Bcl-xL". The Journal of Biological Chemistry 274 (4): 2225–2233. January 1999. doi:10.1074/jbc.274.4.2225. PMID 9890985. 
  3. "Bcl-XL is qualitatively different from and ten times more effective than Bcl-2 when expressed in a breast cancer cell line". BMC Cancer 6 (213): 213. August 2006. doi:10.1186/1471-2407-6-213. PMID 16928273. 
  4. "The anti-apoptotic Bcl-x(L) protein, a new piece in the puzzle of cytochrome c interactome". PLOS ONE 6 (4): e18329. April 2011. doi:10.1371/journal.pone.0018329. PMID 21533126. Bibcode2011PLoSO...618329B. 
  5. "Bcl-XL interacts with Apaf-1 and inhibits Apaf-1-dependent caspase-9 activation". Proceedings of the National Academy of Sciences of the United States of America 95 (8): 4386–4391. April 1998. doi:10.1073/pnas.95.8.4386. PMID 9539746. Bibcode1998PNAS...95.4386H. 
  6. "Bcl-x(L) prevents apoptosis of late-stage erythroblasts but does not mediate the antiapoptotic effect of erythropoietin". Blood 106 (5): 1857–1863. September 2005. doi:10.1182/blood-2004-11-4344. PMID 15899920. 
  7. "Expression of Bcl-x in erythroid precursors from patients with polycythemia vera". The New England Journal of Medicine 338 (9): 564–571. February 1998. doi:10.1056/NEJM199802263380902. PMID 9475763. 
  8. "Bcl-XL protects cancer cells from p53-mediated apoptosis". Oncogene 11 (7): 1389–1394. October 1995. PMID 7478561. 
  9. "Senolytic drugs: from discovery to translation". Journal of Internal Medicine 288 (5): 518–536. November 2020. doi:10.1111/joim.13141. PMID 32686219. 
  10. "Senescence and Cancer: A Review of Clinical Implications of Senescence and Senotherapies". Cancers 12 (8): e2134. July 2020. doi:10.3390/cancers12082134. PMID 32752135. 



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