Sandbox/ caspase-3 regulation

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Exosite and Allosteric Site

Anything in this section will appear adjacent to the 3D structure and will be scrollable.

Caspases have similar structure of active site. Exosite that could be utilized to improve activity has been found in caspase-7 (Boucher, Blais et al. 2012). Caspase-7 also has an inhibitory allosteric site that could bind with small molecule FICA, presenting a zymogen-like conformation (Hardy, Lam et al. 2004).

Although there is no evident exosite found in caspase-3, some allosteric sites, (most of which are located on the dimer interface,) has been studied by mutagenesis. Some of mutant residues can modulate the activity of caspase-3 or even procaspase-3. The procaspase-3 was detected only little activity because the orientation of ILA (prematured L2 loop) and ILB loop cannot form an active site pocket (Bose, Pop et al. 2003).

V266E is a mutation that improves caspase-3 activity dramatically. Even in the uncleavable procaspase-3 (D5A, D26A, D175A), V266E mutant zymogen is also pseudo-activated (60-fold activity). Interestingly, V266E does not change a lot conformation around active site in the active caspase-3. Based on the crystal structure, L2’ loop is partially disorder at 185’-180’. In the homology model of zymogen caspase-3, the catalytic C163 is buried in the dimer interface. E266, which is longer than V266, could push the ILB to the exposed position to make catalytic part is similar as active caspase-3. This active procaspase-3 cannot be inhibited by endogenous XIAP like normal cleaved caspase-3. So it provides us an option for apoptosis stimuli with intrinsic efficiency.

It was found recently that many other mutant residues on the dimer interface might play an important role on inhibition of caspase-3 through manipulating the hydrogen bond or remote talking across whole dimer. For instance, V266H inhibit caspase-3 activity totally, but the double mutation Y197C/V266H the activity is rescued. Structural evidence demonstrates that H266 clashes with Y197, which prevent R164 insert in the dimer interface, which is indispensable to form correct L2 conformation and catalytic loop bundle. Y197C mutation relieves this clash.

Post translational Modification

S-nitrosylation of cysteine also regulates activity of caspase-3 in response of NO in the cell (Maejima, Adachi et al. 2005). As the previous discovery of nitosylated catalytic cysteine in the other caspases, S-nitrosylation directly inhibits the function of C163 of caspase-3. This kind of regulation is sufficiently strong and is a new anti-cancer pathway. For example, induced NO stress could definitely inhibit the myocardial apoptosis at the treatment of DOX.

Phosphorylation consists in another important signaling pathway in biological system. Caspase-3 can be phosphorylated by many kinases like p38a MAPK, PAK2 and PKCdelta. However the site and function of phosphorylation is still unclear.

Natural Inhibitors

X-linked inhibitor of apoptosis proteins (XIAP) contains the second baculovirus IAP repeat domain (BIR2) targeting caspase-3 and caspase-7.

Reference:

Bose, K., C. Pop, et al. (2003). "An uncleavable procaspase-3 mutant has a lower catalytic efficiency but an active site similar to that of mature caspase-3." Biochemistry 42(42): 12298-12310.

Boucher, D., V. Blais, et al. (2012). "Caspase-7 uses an exosite to promote poly(ADP ribose) polymerase 1 proteolysis." Proc Natl Acad Sci U S A 109(15): 5669-5674.

Hardy, J. A., J. Lam, et al. (2004). "Discovery of an allosteric site in the caspases." Proc Natl Acad Sci U S A 101(34): 12461-12466.

Retrieved from "http://52.214.119.220/wiki/index.php/Sandbox/_caspase-3_regulation"

@@ Line 25: / Line 25: @@
 X-linked inhibitor of apoptosis proteins (XIAP) contains the second baculovirus IAP repeat domain (BIR2) targeting caspase-3 and caspase-7.
-<StructureSection load='1I30' size='350' side='right' caption='Structure of complex of caspase-3 with XIAP-BIR2' scene=''>
+<StructureSection load='1I3O' size='350' side='right' caption='Structure of complex of caspase-3 with XIAP-BIR2' scene=''>
+Heterotetramer caspase-3 contains two identical active sites. Each active site binds to one BIR2 domain. See <scene name='Sandbox/_caspase-3_regulation/Overview/1'>Overview</scene>.
 </StructureSection>

Sandbox/ caspase-3 regulation

From Proteopedia

Current revision

Exosite and Allosteric Site

Post translational Modification

Natural Inhibitors

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