3.4.22.52	alpha-actinin + H2O	-	
3.4.22.52	alpha-spectrin + H2O	-	
3.4.22.52	alpha-spectrin + H2O	mu-calpain is neuroprotective in the early stage of excitotoxic injury. Activation and proteolysis of alpha-spectrin by mu-calpain preceds neuronal damage in the developing cerebral cortex induced by chronic treatament of methylmercury	
3.4.22.52	alpha-spectrin II + H2O	-	
3.4.22.52	alphaII-spectrin + H2O	Fanconi anemia proteins play an important role in maintaining the stability of alphaII-spectrin in the cell by regulating its cleavage by mu-calpain	
3.4.22.52	apoptosis inducing factor + H2O	-	
3.4.22.52	apoptosis inducing factor + H2O	activated mitochondrial calpain 1 within intermembrane space cleaves apoptosis inducing factor (AIF), whereas the activated mitochondrial calpain 1 within the matrix cleaves complex I subunits and metabolic enzymes	
3.4.22.52	apoptosis-inducing factor + H2O	although calpain I cleaves recombinant apoptosis-inducing factor in a cell free system, in intact cells under conditions where endogenous calpain is activated by either N-methyl-D-aspartate or N-methyl-N'-nitro-N-nitrosoguanidine administration, apoptosis-inducing factor is not cleaved	
3.4.22.52	apoptosis-inducing factor + H2O	-	
3.4.22.52	apoptosis-inducing factor + H2O	mitochondrial micro-calpain is the protease responsible for processing apoptosis-inducing factor prior to its release	
3.4.22.52	ATP synthase-alpha (ATP5A1) + H2O	calpain-1 accumulation in mitochondria disrupts ATP synthase and induces ROS generation, which promotes diabetic cardiomyopathy	
3.4.22.52	caspase-7 + H2O	recombinant caspase-7 is directly cleaved and activated by calpain-1 within the large subunit of caspase-7 to produce the large subunit p18 and p17	
3.4.22.52	complex I subunits + H2O	activated mitochondrial calpain 1 within intermembrane space cleaves apoptosis inducing factor (AIF), whereas the activated mitochondrial calpain 1 within the matrix cleaves complex I subunits and metabolic enzymes	
3.4.22.52	desmin + H2O	-	
3.4.22.52	dynamin-like protein 1 + H2O	dynamin-like protein 1 (DLP1) is the key mitochondrial fission GTPase. It is a substrate of calpain which produced specific N-terminal DLP1 cleavage fragments. DLP1 is a physiological and Alzheimer's disease-relevant pathophysiological substrate of calpain in cells and in the brain. Calpain activation could contribute to reduced DLP1 levels and mitochondrial dynamics abnormalities and mitochondrial dysfunction in Alzheimer's disease	
3.4.22.52	filamin A + H2O	-	
3.4.22.52	filamin-1 + H2O	-	
3.4.22.52	fodrin + H2O	-	
3.4.22.52	Frizzled-7 + H2O	calpain-1 is a regulator of Frizzled-7 turnover at the plasma membrane	
3.4.22.52	full-length glutamic acid decraboxylase67 + H2O	in mu-calpain knockout mice, the level of truncated glutamic acid decarboxylase67 in the brain is greatly reduced compared with the wild-type. mu-Calpain is activated by neuronal stimulation and Ca2+-influx	
3.4.22.52	I-kappaBalpha polymer + H2O	-	
3.4.22.52	integrin + H2O	-	
3.4.22.52	lysosomal associated membrane protein 2 + H2O	calpain 1 is responsible for lysosomal permeabilization by cleavage of the lysosomal associated membrane protein 2	
3.4.22.52	MAP2 + H2O	-	
3.4.22.52	mature apoptosis-inducing factor (62 kDa) + H2O	cleaved by the mitochondrial mu-calpain near its N-terminus	
3.4.22.52	microtubule-associated protein 2 + H2O	calpain translates high-frequency Ca2+ transients into decomposition of its sensitive substrate microtubule-associated protein 2	
3.4.22.52	mitochondrial major Ca2+ extruding pathway Na+/Ca2+ exchanger + H2O	cleaved by the mitochondrial mu-calpain	
3.4.22.52	additional information	primary role of calpain 1 and calpain 3 in meat tenderization	
3.4.22.52	additional information	enzyme is involved in myofibrillar protein degradation	
3.4.22.52	additional information	prednisolone suppresses ischemia-reperfusion injury of the rat liver. Its cytoprotective effect is partial, but is closely associated with inhibition of activation of mu-calpain and suppression of IL-beta and TNF-alpha transcription as well as with improved survival rate	
3.4.22.52	additional information	because the calcium concentration in postmortem muscle is high enough to activate mu-calpain, but not m-calpain, it seems reasonable to conclude that mu-calpain is responsible for postmortem degradation of calpastatin. Degradation of calpastatin by mu-calpain reduces calpain-inhibitory activity and is probably an important event in regulation of postmortem proteolysis, and, thus, meat tenderness	
3.4.22.52	additional information	age-dependent myelin degeneration and proteolysis of oligodendrocyte proteins is associated with the activation of calpain-1	
3.4.22.52	additional information	the enzyme mediates tissue injury following post-ischemic and post-traumatic stress	
3.4.22.52	additional information	mu-calpain, m-calpain, 20S proteasome, dipeptidyl peptidase II and III and soluble alanyl aminopeptidase are thought to induce lens opacification kinetically during cataract formation in Shumiya cataract rats through the intracellular turnover of lens proteins	
3.4.22.52	additional information	translational expression of mu-calpain is up-regulated by 462.5% in MW white matter compared with controls. mu-Calpain activity and translational expression are not increased significantly in white matter from patients with Parkinson‘s or Alzheimer diseases compared with that of normal controls. Because calpain degrades all major myelin proteins, the increased activity and expression of this proteinase may play a critical role in myelinolysis in MS	
3.4.22.52	additional information	calpain mediates calcium-induced activation of the Erk1,2 MAPK pathway and cytoskeletal phosphorylation in neurons	
3.4.22.52	additional information	calpain-1 regulates Bax and subsequent Smac-dependent caspase-3 activation in neutrophil apoptosis	
3.4.22.52	additional information	mu-Calpain regulates receptor activator of NF-kappaB ligand (RANKL)-supported osteoclastogenesis via NF-kappaB activation in RAW 264.7 cells	
3.4.22.52	additional information	pathological conditions associated with the gene of calpain 1: muscular dystrophy, stroke, traumatic brain injury, spinal cord injury, Alzheimer's diseases, neurodegenerative disorders, cataracts, cancer	
3.4.22.52	additional information	calpain 1 and 2 are required for RNA replication of echovirus 1	
3.4.22.52	additional information	calpastatin could play an important role in preventing uncontrolled activity of l-calpain which otherwise may facilitate pulmonary hypertension, smooth muscle proliferation and apoptosis	
3.4.22.52	additional information	in the ischemic condition such as endometriosis, myoma of uterus and microscopic thrombosis, increasing of intracellular calcium ion concentration leads to the activation of l-calpain. Cleavage of integrin beta3 by over activated l-calpain may lead to an adverse effect on early pregnancy and to causing recurrent miscarriage	
3.4.22.52	additional information	mu-calpain but not m-calpain can restore the cell migration rate. Knockdown of mu-calpain alters cell morphology with increased filopodial projections and a highly elongated tail that seems to prevent cell spreading and migration with reduced rear detachment ability. Knockdown of mu-calpain decreases the proteolytic products of filamin and talin, which are specifically rescued by overexpression of mucalpain but not m-calpain, suggesting that their proteolysis could be one of the key mechanisms by which mu-calpain regulates cell migration	
3.4.22.52	additional information	role for mu-calpain isoform in the hypermeability of the diabetic endothelium	
3.4.22.52	additional information	mu-calpain prefers Leu, Val or Ile at the P2 position and Lys, Tyr, Arg, or Met at the P1 position	
3.4.22.52	myelin-associated glycoprotein + H2O	calpain overexpression due to *OH stress, IFN-gamma stimulation, or Ca2+ influx is involved in C6 cell death	
3.4.22.52	Na+/Ca2+ exchanger isoform 3 + H2O	-	
3.4.22.52	neuronal nitric oxide synthase + H2O	-	
3.4.22.52	neuronal nitric oxide synthase + H2O	the mechanism of neuronal nitric oxide synthase activation is promoted by a calpain-mediated limited proteolysis through conversion of native 160 kDa nNOS into a fully active 130 kDa 	
3.4.22.52	NR2B subunit of NMDA receptor + H2O	-	
3.4.22.52	p12 subunit of human DNA polymerase delta + H2O	the proteolysis of p12 by mu-calpain may be through a DNA polymerase delta4/PCNA complex. The p12/DNA polymerase delta is a target as a nuclear substrate of mu-calpain in calcium-triggered apoptosis	
3.4.22.52	p35 + H2O	-	
3.4.22.52	prostacyclin synthase + H2O	calpain 1 cleaves and inactivates prostacyclin synthase in mesenteric arteries from diabetic mice. It cleaves the C-terminal domain of PGI2 synthase close to the catalytic site of the enzyme	
3.4.22.52	Rad21 + H2O	calpain-1 cleaves Rad21 at Leu192	
3.4.22.52	recombinant procaspase-3 + H2O	-	
3.4.22.52	recombinant procaspase-3 + H2O	calpain is a potential regulator of caspases and calpain promotes apoptosis-like events during platelet activation	
3.4.22.52	recombinant procaspase-9 + H2O	-	
3.4.22.52	recombinant procaspase-9 + H2O	calpain is a potential regulator of caspases and calpain promotes apoptosis-like events during platelet activation	
3.4.22.52	RhoA + H2O	calpain cleaves RhoA and generates a form that inhibits integrin-induced stress fiber assembly and cell spreading	
3.4.22.52	spectrin + H2O	-	
3.4.22.52	striatal-enriched protein tyrosine phosphatase + H2O	calpain-cleavage of striatal-enriched protein tyrosine phosphatase 61 is NMDAR-dependent, Cdk5 enhances calpain-mediated cleavage of striatal-enriched protein tyrosine phosphatase 61, calpain cleaves recombinant striatal-enriched protein tyrosine phosphatase 46 in a dose-dependent manner	
3.4.22.52	talin + H2O	-	
3.4.22.52	tau protein + H2O	-	
3.4.22.52	titin + H2O	-	
3.4.22.52	troponin complex + H2O	-	
3.4.22.52	utrophin + H2O	-	
3.4.22.52	vimentin + H2O	-