Recombinant Mouse Caveolin-3 (Cav3)

1. Pathogenic p.P104 mutation causes endoplasmic reticulum stress, impairs protein processing, ECM remodeling and sarcolemmal integrity. PMID: 30153853
2. Cav-3 and Smad3 may be involved in the occurrence and development of viral myocarditis. PMID: 28770956
3. CAV3 protein has a physiological role in glycometabolism, growth and proliferation, independent of insulin stimulation PMID: 29206848
4. The Cav3 P104L mutation of limb girdle muscular dystrophy-1C leads to disordered glucose metabolism in muscle cells. PMID: 28232187
5. Cav-3 overexpressing mice have changes in ECG intervals, heart rates, and cardiac ion channel expression PMID: 27023865
6. Loss of CAV3 interferes with downstream insulin signaling and lipid uptake and increases susceptibility to palmitate-induced insulin resistance. PMID: 27033451
7. eNOS, caveolin-3, and connexin-43 were detected in subsarcolemmal mitochondria PMID: 25694588
8. Data show increased expression of T-type Ca(2+) current and association of protein kinase C alpha (PKCalpha) with caveolin-3 (Cav-3)was disrupted in the hypertrophic ventricular myocyte. PMID: 26170457
9. Cardioprotection in myocardial infarction is abolished in caveolin-3 knockout mice. PMID: 25912591
10. The lithogenic diet was associated with significantly lower CAV3 in the liver and lower CAV3 and CCKAR in the gallbladder compared with the control mice. PMID: 25071346
11. Cav-3 may be a novel participant in B-cell expression, T-cell cytokine production and activation of inflammation PMID: 25476831
12. Cav3 protein can modify integrin function and mechanotransduction in the cardiomyocyte and intact heart PMID: 25366344
13. Deinactivation of Cav3 channels increases T-type Ca(2+) influx and increases feedback inhibition in olfactory bulb. PMID: 25319700
14. Data reveal the membrane cholesterol dependence of normoxic myocardial and coronary function, I/R tolerance, and morphine-mediated cardioprotection in murine hearts (all declining with cholesterol depletion). PMID: 25063791
15. Cav-3 has a pivotal role in defending cardiomyocytes against the TNF pro-apoptotic action and alpha-linoleic acid has the capacity to regulate this mechanism preventing cardiac degenerative diseases. PMID: 24042018
16. the distribution of ryanodine receptors (RyRs) and caveolin-3 (CAV3) in mouse ventricular myocytes PMID: 23746531
17. Palmitate diet-induced loss of cardiac caveolin-3 constitutes a novel mechanism for lipid-induced contractile dysfunction. PMID: 23585895
18. hyperglycemia-induced PKCbeta2 activation requires caveolae and is associated with reduced Cav-3 expression in the diabetic heart. PMID: 23474486
19. Data suggest caveolin-1 (but not caveolin 3) is down-regulated in plasma membrane/caveolae/mitochondria in myocardium in acute ischemia-reperfusion injury. PMID: 23403888
20. Inhibition of MSTN activity by overexpression of cav-3 induces an activation of protein synthesis rather than an inhibition of proteolysis. PMID: 22791505
21. We show that a TbetaRI kinase inhibitor, Ki26894, restores impaired myoblast differentiation in vitro caused by activin, myostatin, and TGF-beta1, as well as CAV3(P104L). PMID: 22584670
22. Cav-3 plays an essential role in adiponectin transmembrane signaling and APN anti-ischemic/cardioprotective actions. PMID: 22328772
23. Findings suggest that the ER stress response caused by mCav3(P104L) plays a role in the pathogenesis of LGMD1C as a toxic gain of function effect. PMID: 21610159
24. PKCdelta signaling is required for myoblast fusion by regulating the expression of caveolin-3 and beta1D integrin upstream focal adhesion kinase. PMID: 21346196
25. Data indicate that Cav-3 increases caveolae formation and induces a "protective phenotype" that is characterized by increaed natriuretic peptide expression and decreased cardiac hypertrophy. PMID: 21616289
26. both groups of preassembled proteins are maintained in close proximity by caveolin-3, the K(V)4.2/K(V)4.3 channel supramolecular complex, and alpha1-AR, Galphas and adenylate cyclase gather in a second group PMID: 20224290
27. Depletion of Cav3 induced by delivery of the dominant-negative Cav3 (P104L) form impairs myoblast differentiation via Akt and p38 signalling networks, leading to an immature cell and molecular signature. PMID: 21182936
28. functional modulation of the Ca(v)3.2 channels by Cav-3 is important for understanding the compartmentalized regulation of Ca(2+) signaling during normal and pathological processes. PMID: 21084288
29. Opioid-induced preconditioning is dependent on Cav-3 expression and endogenous protection in Cav-3 overexpressing mice is opioid dependent. PMID: 20736437
30. caveolin 3-containing membrane domains and the calcium release complex are functionally linked and Trisk 95 and Trisk 51 are instrumental to the regulation of this interaction, the integrity of which may be crucial for muscle physiology. PMID: 20565104
31. Delayed delayed anesthetic preconditioning induced by isoflurane cannot be elicited in caveolin-3-deficient mice, indicating that the presence of caveolae (dependent on caveolin-3 expression) is a prerequisite for delayed protection in the myocardium. PMID: 20418694
32. These data identify caveolin-3 as a critical component of the signaling machinery that drives nicotinic acetylcholine receptor clustering and controls neuromuscular junction function. PMID: 19940021
33. GPI-linked proteins were retained intracellularly in tissue samples derived from Cav-1 null mice (i.e., lung endothelial and renal epithelial cells) and Cav-3 null mice (skeletal muscle fibers). PMID: 11997523
34. Data suggest that loss of Cav-3 expression is sufficient to induce a molecular program leading to cardiac myocyte hypertrophy and cardiomyopathy. PMID: 12138167
35. Overexpression of caveolin-3 is sufficient to induce severe cardiomyopathy. PMID: 12966035
36. caveolin-3 is a key player in myoblast fusion PMID: 14517320
37. caveolin-3 mutations associated with limb girdle muscular dystrophy type 1C disrupt normal cellular signal transduction pathways PMID: 14600260
38. Recombinant expression of caveolin-3 affects subcellular localization of PFK-M, by targeting PFK-M to plasma membrane and by trans-locating PFK-M to caveolae-enriched membrane domains. Strictly dependent on the concentration of extracellular glucose. PMID: 14633633
39. loss of caveolin-3 associated with a moderate increase in eNOS activity results in hypertrophic cardiomyopathy PMID: 14645200
40. the importance of dysferlin-caveolin 3 relationship for skeletal muscle integrity PMID: 14749532
41. Data suggest that caveolin 3 is an enhancer of insulin signaling in skeletal muscles but does not act as a scaffolding molecule for insulin receptors. PMID: 15314230
42. Our results demonstrate the importance of Cav-3 in regulating whole body glucose homeostasis in vivo and its possible role in the development of insulin resistance. PMID: 15689413
43. Caveolins are essential for dysferlin association with the plasma membrane. PMID: 16319126
44. Flotillin-1 and caveolin-3 may regulate muscle energy metabolism through the spatial and temporal segregation of key components of the insulin signaling, including GLUT4 transport. PMID: 16455755
45. caveolin-3 was present only in smooth muscles of some specific tissues PMID: 16609918
46. These findings indicate that normal expression and localization of caveolin-3 are required to appropriately co-ordinate PI(3) kinase/Akt-mediated cell survival signaling. PMID: 16814768
47. Intermediate filament protein desmin and caveolin-3 associate with each other in myogenic cells. PMID: 17036228
48. caveolin-3 normally suppresses the myostatin-mediated signal PMID: 17039257
49. Overexpression of CAR may lead to physiological dysfunction by interfering with normal signaling (through alterations in caveolin-3 and neuronal nitric-oxide synthase levels). PMID: 17148677
50. caveolin-3 levels are downregulated by nitric oxide through the interaction with myogenin, the transcription factor for caveolin-3 PMID: 17519233

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KEGG: mmu:12391

STRING: 10090.ENSMUSP00000074922

UniGene: Mm.3924