1. these data indicate that CatK not only plays a major role in bone remodeling but also modulates modeling-based cortical bone formation by degrading periostin and thereby moderating Wnt-beta-catenin signaling. PMID: 28322464
2. This study established a possible role of CatK in TLR7 proteolytic activation, Treg immunosuppressive activity, and lupus autoimmunity and pathology. PMID: 28093526
3. catK deficiency almost completely blunted the increased vascular remodeling response of apoE-/- mice to flow cessation, possibly by correcting hyperlipidemia-associated pro-inflammatory effects on the peripheral immune response PMID: 27636705
4. Cathepsin K expression is increased in the bone of a diabetic mouse model. PMID: 26892148
5. Data suggest Ctsk gene, key gene upregulated during osteoclast differentiation, is transcriptionally activated during cell hypoxia-induced mitochondrial dysfunction/disruption; hnRNPA2 (heterogeneous ribonucleoprotein A2) is coactivator in this process. PMID: 25800988
6. cathepsin K knockout attenuates age-related decline in cardiac function via suppressing caspase-dependent and caspase-independent apoptosis PMID: 25692548
7. Data (including data from studies in knockout/transgenic mice) suggest that Ctsk is involved in inflammatory response and bone resorption in both rheumatoid arthritis and periodontitis; thus, Ctsk appears to play a role in osteoimmune responses. PMID: 25896020
8. In a mouse model of post-traumatic osteoarthritis, cathepsin K activity was significantly increased in injured knees relative to uninjured knees. PMID: 25278057
9. Gene deletion of cathepsin K in mice accelerated callus size resolution, significantly increased callus mineralized mass, and improved mechanical strength as compared to wild type mice. PMID: 24928497
10. synergism between HIV proteins and pro-atherogenic shear stress to increase endothelial cell expression of the powerful protease cathepsin K PMID: 24719048
11. in addition to its other effects, the absence of CatK in OCP limits their ability to engraft in a repairing fracture callus compared to WT OCP. PMID: 24590570
12. Cardiac mammalian target of rapamycin and extracellular signal-regulated kinases (ERK) signaling cascades were upregulated by pressure overload, the effects of which were attenuated by cathepsin K knockout. PMID: 23529168
13. The localization pattern of the intercellular junction proteins E-cadherin and occludin was altered in the colon of Ctsk-/- mice, suggesting potential impairment of the barrier function. PMID: 23152408
14. Targeted ablation of Ctsk in hematopoietic cells, or specifically in osteoclasts and cells of the monocyte-osteoclast lineage, resulted in increased bone volume and bone formation rate as well as osteoclast and osteoblast numbers. PMID: 23321671
15. cathepsin K contributes to the development of obesity-associated cardiac hypertrophy and may represent a potential target for the treatment to obesity-associated cardiac anomalies. PMID: 23069627
16. cathepsin K exocytosis is controlled by PKCdelta through modulation of the actin bundling protein myristoylated alanine-rich C-kinase substrate. PMID: 22806935
17. results raise significant concerns regarding in vivo bone phenotypes created using Ctsk(Cre/+) mice and warrant further investigation into the role of Cathepsin K in gametes as well as alternative tools for studying osteoclast-specific gene loss in vivo PMID: 22860046
18. CTK plays crucial direct roles in the early to intermediate stage of osteoarthritis development. CTK-positive chondrocytes and synovial cells may be a possible target to prevent disease progression in osteoarthritis. PMID: 21968827
19. This study demonstrates that curcumin increases the expression of cathepsins K and L in lung which an effect on lung fibroblast cell behavior. PMID: 22126332
20. We propose that cathepsin K activity has an important impact on the development and maintenance of the CNS in mice PMID: 21794126
21. variants of ENaC subunits may contribute to the variation of BP response to dietary sodium intake PMID: 21721952
22. CatK plays an essential role in abdominal aortic aneurysm formation by promoting T-cell proliferation, vascular SMC apoptosis, and elastin degradation and by affecting vascular cell protease expression and activities. PMID: 21817099
23. BK channel controls resorptive osteoclast activity by regulating Cathepsin K release PMID: 21695131
24. Airway development is partly regulated by cathepsin K expression contributes to lung development the maintenance of the airway structural integrity via an interaction with TGF-beta1. PMID: 21627832
25. Cathepsin K deficiency affected mostly the occurrence and composition of lung granulomas in a murine model of sarcoidosis. PMID: 21251246
26. the levels of cathepsin K and MMP-9 increase in the conditioned medium from IL-17A-treated cells PMID: 20937352
27. while catK deficiency has major impact on various vasculopathies, it did not affect murine aneurysm formation. PMID: 19775691
28. Data indicate that cathepsin K ablation in mice results in reduced body fat content under conditions requiring a rapid accumulation of fat stores. PMID: 17668061
29. Results suggest that the accumulation of glycosaminoglycans in murine mucopolysaccharidosis I bone has an inhibitory effect on cathepsin K activity, resulting in impaired osteoclast activity and decreased cartilage resorption. PMID: 19834056
30. Cathepsin K-deficient osteoclasts are fully differentiated and are capable of degrading the organic phase of alveolar bone during tooth formation and eruption in CK-/- knockout mice. PMID: 12719657
31. cathepsin K has a role in utilization of luminal thyroglobulin for thyroxine liberation PMID: 12782676
32. Cathepsin K plays a pivotal role in lung matrix homeostasis under physiological and pathological conditions. PMID: 15161653
33. Altogether, these data suggest that while Cat K may contribute to control lung fibrosis, TGF-beta appears to limit its overexpression in response to silica particles PMID: 16045809
34. overexpression of the cathepsin K gene under its own promoter in transgenic mice makes them susceptible to progressive synovitis PMID: 16329095
35. Scavenger receptor-mediated uptake (particularly by CD36) of modified LDL increased in the absence of catK, resulting in an increased macrophage size because of increased cellular storage of cholesterol esters, thereby enlarging the lysosomes PMID: 16365196
36. CatK-deficient mice were generated by targeted disruption of the Ctsk gene and compared their bone structural and mechanical properties with wildtype (WT) controls. PMID: 16753017
37. Cathepsin K is a mechanosensitive, extracellular matrix protease that may be involved in arterial wall remodeling and atherosclerosis. PMID: 17098827
38. cathepsin K plays a key role in osteoclasts apoptosis and senescence, revealing the importance of osteoclasts senescence in bone homeostasis. PMID: 17210673
39. AP-1 stimulates the cathepsin K promoter in RAW 264.7 cells. PMID: 17897792
40. results suggest cathepsin K plays an important role in the immune system; pharmacological inhibition or targeted disruption of cathepsin K resulted in defective Toll-like receptor 9 signaling in dendritic cells in response to unmethylated CpG DNA PMID: 18239127
41. experiments raise doubts about a crucial role of cathepsin K in arthritic bone destruction PMID: 18240253
42. cathepsin K deficiency appears to increase lesion stability in brachiocephalic arteries by maintaining the integrity of the tunica media and by decreasing plaque vulnerability to rupture PMID: 18291403
43. essential role of CatK in adipogenesis and body weight gain, possibly via degradation of fibronectin PMID: 18818416
44. CTSK may play a role in adipogenesis in early differentiation phases and produce an effect at least partly by degrading type I collagen. PMID: 18840928
45. The purpose of this paper is to describe bone mass, strength, resorption, and formation in young adult CatK null mice. PMID: 18845279
46. Leucocyte CatK is an important determinant of atherosclerotic plaque composition, vulnerability, and bone remodelling. PMID: 19015136
47. cathepsin K interaction with type I collagen is required for 1) the release of cryptic Arg-Gly-Asp motifs during the initial attachment of osteoclasts and 2) termination of resorption PMID: 19028686
48. increased biosynthesis of cathepsin K was sufficient to accelerate the osteoclastic bone resorption cycle. PMID: 19118660
49. Free cholesterol accumulation in macrophage membranes activates Toll-like receptors and p38 mitogen-activated protein kinase and induces cathepsin K. PMID: 19122179
50. the hypercalcification of the cathepsin K-deficient growth plate is due to persistence of calcified cartilage and point to a role of cathepsin K in bone tissue development as well as skeletal remodeling. PMID: 19172215

顯示更多

收起更多

KEGG: mmu:13038

STRING: 10090.ENSMUSP00000015664

UniGene: Mm.272085