Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cathepsin K(EC 3.4.22.38) is a lysosomal cysteine protease that is strongly implicated in bone resorption. The human cathepsin K gene is highly expressed in osteoclasts and gene mutations cause pycnodysostosis, an autosomal recessive skeletal dysplasia. To investigate the evolutionary relatedness of cathepsin K across species, the mouse cathepsin K gene was isolated. A mouse heart cDNA clone, pMCatKl, contained the 3' untranslated region, mature enzyme coding sequence, and most of the propeptide. The remainder of the gene was amplified from mouse melanocyte RNA using 5' rapid amplification of cDNA ends. The gene contained a 990-bp open reading frame, predicting a 329-amino-acid prepropolypeptide. The structure of the protein included a 15-amino-acid presignal, a 99-amino-acid proregion, and a 215-amino-acid mature enzyme. Two potential N-glycosylation sites were identified, one in the proregion and one in the mature enzyme. The 5' untranslated region was 135 bp. The 3' untranslated region was 470 bp including a 9-bp poly(A) tract and contained two polyadenylation signals. The mouse cathepsin K nucleotide and amino acid sequences were highly conserved with the human, rabbit, and chicken homologues across the proregion and mature enzyme. The mouse cathepsin K gene was isolated from an V129 genomic library, and characterization of its genomic structure and intron sizes revealed exons with the initiation ATG in exon 2 and termination TGA in exon 8, a genomic organization that was highly conserved with its human homologue. The availability of the mouse cathepsin K cDNA and genomic sequences will facilitate generation of a mouse model of cathepsin K deficiency by gene targeting.
Biochem Mol Med 1996 Dec
PMID:Cathepsin K: isolation and characterization of the murine cDNA and genomic sequence, the homologue of the human pycnodysostosis gene. 898 45

Alveolar and bronchial epithelial cells have been shown to have regulatory functions in the maintenance of lung structure and function. Recent evidence supports the premise that these cells can synthesize a variety of extracellular matrix components in vitro, suggesting an active participation in connective tissue remodeling. Their possible role in extracellular matrix degradation, however, is less clear. This study addresses the question of whether alveolar and bronchial epithelial cells express the highly collagenolytic and elastinolytic cysteine proteinase cathepsin K, which has recently been newly described. We provide evidence that the epithelial cell lines A549 and BEAS-2B are capable of expressing cathepsin K messenger RNA. Furthermore, we show that cathepsin K is expressed in normal bronchial epithelial cells. Western blot analyses of human lung-tissue lysates revealed specific immunoreactivity at molecular weights of 46 and 27 kD, corresponding to the procathepsin and the mature cathepsin K. Immunohistochemical analyses showed a pronounced staining of bronchial epithelial cells and in single alveolar epithelial cells. Using a specific fluorogenic cytochemical assay, the intracellular activity of the enzyme was localized. These findings demonstrate that bronchial and alveolar epithelial cells are capable of expressing cathepsin K, which could be of considerable importance for remodeling processes of the extracellular matrix in the lung.
Am J Respir Cell Mol Biol 1999 Apr
PMID:Expression of cathepsin K in lung epithelial cells. 1010 Sep 92

Together, osteoporosis and osteopetrosis comprise a substantial proportion of the bone diseases that severely affect humans. In order to understand and effectively treat these disorders, an understanding of the mechanisms controlling bone remodelling is essential. While numerous animal models of bone disease have been generated, the lack of correlation between these animal models and human disease has limited their utility in terms of defining therapeutic strategies. The generation and analysis of cathepsin K knockout mice has resulted in a model for pycnodysostosis, a rare human osteopetrotic disease, and is now providing considerable insights into both osteoclast function and potential therapeutic strategies for the treatment of bone disease. This review highlights the importance of genes such as cathepsin K in understanding bone remodelling and illustrates a new trend towards understanding bone disease as a complete entity rather than as a series of unrelated disorders.
Hum Mol Genet 1999
PMID:Osteopetrosis and osteoporosis: two sides of the same coin. 1046 35

A potato cysteine protease (cyp) cDNA expressed at an early stage of an incompatible interaction with Phytophthora infestans was isolated. Both the nucleotide and deduced amino acid sequences are highly homologous to those of a tomato cysteine protease, CYP1. Striking protein similarity to all known cathepsins in animals, particularly cathepsin K, was also observed. However, unlike cathepsins, a granulin binding domain is located near the carboxyl terminus of the putative CYP protein. In animals, granulins bind to receptors in the plasma membrane and signal cell growth and division. A ribonuclease protection assay demonstrated that the cyp gene is tightly regulated and is induced 15 h post inoculation with P. infestans in potato leaves either with high field resistance or in which a resistance (R) gene is activated. We conclude that a common signaling pathway is activated in each form of resistance.
Mol Plant Microbe Interact 1999 Dec
PMID:A cysteine protease gene is expressed early in resistant potato interactions with Phytophthora infestans. 1062 19

We confirmed the expression of cathepsin K, the most abundant and specific cysteine protease found in osteoclasts, at the mRNA level in most of our cases of breast cancer, and even at the protein level in bone metastatic lesions. Therefore, we investigated the functions of cathepsin K in osteoclasts with special attention to bone metastasis from breast cancer. Mouse osteoclast-like cells (OCLs) were established by coculture of mouse bone marrow cells and osteoblastic cells. Rodent cathepsin K antisense (AS) or random control (CL) oligonucleotides were added on day 0, 3, or 6 of culture. Tartrate-resistant acid phosphatase staining confirmed the formation of OCLs after 9 d of incubation. AS treatment significantly reduced both the number of TRAP-positive cells and the percentage of multinuclear cells. For the pit-forming assay, after 9 d of incubation, mature OCLs were collected and incubated on ivory slices with AS or CL for 48 h. The antisense oligonucleotides also inhibited the bone-resorbing activity of OCLs. CL treatment did not affect either the number of TRAP-positive cells or pit formation. Cathepsin K may play important roles in bone resorption as well as in differentiation of osteoclasts. These findings indicate that the inhibition of this enzyme may prevent the development of bone metastasis from breast cancer.
Mol Carcinog 2001 Oct
PMID:Inhibition of osteoclast differentiation and bone resorption by cathepsin K antisense oligonucleotides. 1174 20

Patients with pycnodysostosis, a rare skeletal dysplasia, present with bone abnormalities such as short stature, acroosteolysis of distal phalanges, and skull deformities. The disease is caused by a deficiency of the cysteine protease cathepsin K which is responsible for degradation of collagen type I and other bone proteins. Osteoclasts, bone cells of hematopoietic origin responsible for bone mineral as well as protein matrix degradation, are dysfunctional in patients with pycnodysostosis due to mutations in the cathepsin K gene. Cathepsin K deficient osteoclasts can demineralize bone but cannot degrade the protein matrix. Mutations in the cathepsin K gene disrupting wild type cathepsin K activity have been described in patients with pycnodysostosis. Animal models of cathepsin K deficiency have been created and provide a valuable tool to study osteoclast function and treatment for cathepsin K deficiency. Understanding the regulation and role of cathepsin K in osteoclast function is important for designing future therapies for pycnodysostosis. Cathepsin K inhibitors will be useful in pathological processes involving excess osteoclast activation and bone resorption such as osteoporosis, bone metastasis and multiple myeloma. This review will discuss the bone remodeling cycle, the human disease pycnodysostosis caused by cathepsin K deficiency and cathepsin K activity and regulation.
Curr Mol Med 2002 Aug
PMID:Pycnodysostosis: role and regulation of cathepsin K in osteoclast function and human disease. 1212 7

We report the effects of specific and potent inhibitors of vacular-type H(+)-ATPase and lysosomal cysteine proteinases, cathepsins, on the ultrastructure, expression of these enzymes, and resorptive functions of cultured osteoclasts. Osteoclasts were formed by co-culture of marrow cells and calvarial primary osteoblasts of ddY mice. Formed osteoclasts were cultured on dentine slices for 6-48 hr with either an H(+)-ATPase inhibitor, bafilomycin A1, or a cysteine proteinase inhibitor, E-64. In control cultures with no additive, osteoclasts were structurally characterized by the development of ruffled borders and clear zones, and formed many resorption lacunae on dentine slices. Both H(+)-ATPase and cathepsin K were strongly expressed in the ruffled borders of these osteoclasts. In bafilomycin A1-treated cultures, osteoclasts lacked ruffled borders, and resorption lacuna formation was markedly diminished. This effect of bafilomycin A1 on osteoclast structure was reversible by removal of the compound. Bafilomycin A1 treatment altered the subcellular localization and decreased the expression of H(+)-ATPase molecules. H(+)-ATPase expression was observed throughout the cytoplasm, but not along the plasma membranes facing dentine slices. On the other hand, E-64 treatment did not affect the ultrastructure of osteoclasts and the expression of enzyme molecules. Although E-64 showed no effect on demineralization of dentine slices, it dose-dependently reduced resorption lacuna formation. Our results suggest that 1) bafilomycin A1 dose-dependently inhibits resorption lacuna formation via inhibition of ruffled border formation, 2) H(+)-ATPase expression is closely associated with the cytoskeleton of osteoclasts, and 3) E-64 treatment decreases the depth of resorption lacunae, by inhibition of secreted cathepsin K activity, but does not impair ruffled border formation and the associated expression of H(+)-ATPase and cathepsin K in osteoclasts.
Anat Rec A Discov Mol Cell Evol Biol 2003 Feb
PMID:Specific biological functions of vacuolar-type H(+)-ATPase and lysosomal cysteine proteinase, cathepsin K, in osteoclasts. 1252 90

High ambient Ca2+ at bone resorption sites have been implicated to play an important role in the regulation of bone remodeling. The present study was performed to clarify the mode of high extracellular Ca2+ (Ca2+(e))-induced modulation of osteoclastogenesis and the expression of receptor activator of nuclear factor-kappaB ligand (RANKL) and osteoprotegerin (OPG), thereby to define its role in osteoclast formation. Mouse bone marrow cells were cocultured with osteoblastic cells in the absence or presence of osteoclastogenic factors such as 1,25-dihydroxyvitaminD3 (1,25-(OH)2vitD3)and macrophage colony-stimulating factor/soluble RANKL. Ca2+ concentration in media (1.8 mM) was adjusted to 3, 5, 7 or 10 mM. Osteoclast formation was confirmed by the appearance of tartrate-resistant acid phosphatase (TRAP)-positive multinuclear cells and the expression of osteoclast phenotypic markers (calcitonin receptor, vitronectin receptor, cathepsin K, matrix metalloproteinase-9, carbonic anhydrase 2). High Ca2+(e) alone significantly stimulated osteoclast formation in a dose-dependent manner. However, in the presence of highly osteoclastogenic factors, high Ca2+(e) significantly inhibited osteoclastogenesis. High Ca2+(e) alone continuously up-regulated RANKL expression while only transiently increased OPG expression. However, in the presence of 1,25-(OH)(2)vitD(3), high Ca2+(e) did not change the 1,25-(OH)2vitD3-induced RANKL expression while increased OPG expression. Taken together, these findings suggest that high Ca2+(e) alone increase osteoclastogenesis but inhibit in the presence of other osteoclastogenic factors. In addition, high CaCa2+(e)-induced osteoclastogenesis may be mediated by osteoblasts via up-regulation of RANKL expression. Meanwhile up-regulated OPG might participate in the inhibitory effect of high Ca2+(e) on 1,25-(OH)2vitD3-induced osteoclastogenesis.
Exp Mol Med 2003 Jun 30
PMID:High extracellular Ca2+ alone stimulates osteoclast formation but inhibits in the presence of other osteoclastogenic factors. 1285 15

Pycnodysostosis is a genetic bone disease featuring the unique bone homeostasis disorders of osteolysis and osteopetrosis in the same organism. The pathomechanism for pycnodysostosis has been largely unknown due to the unavailability of a pycnodysostosis mouse model with all the traits of the disease. We generated cathepsin K(-/-) mouse strains in the 129/Sv and C57BL/6J backgrounds and found that, only in the 129/Sv background, cathepsin K(-/-) mice exhibit many characteristics of the human pycnodysostosis-like phenotype. Our data indicated that 129/Sv cathepsin K(-/-) osteoclasts (OCs) lacked normal apoptosis and senescence and exhibited over-growth both in vitro and in vivo. These abnormalities resulted in an unusually high OC number, which is consistent with a recent case study of human pycnodysostosis. Our results show that cathepsin K function has different effects around the skeleton due to site-specific variations in bone homeostasis, such as phenotypes of osteopetrosis in tibiae and osteolysis in calvariae as a result of cathepsin K mutation. Our data demonstrated that the expression levels of p19, p53 and p21 were significantly reduced in 129/Sv cathepsin K(-/-) OCs and forced expression of cathepsin K in pre-OCs induced premature senescence and increased expression of p19, p53 and p21. This is the first evidence that cathepsin K plays a key role in OC apoptosis and senescence, revealing the importance of OC senescence in bone homeostasis. The finding of this novel cathepsin K function provides insight into the pathomechanism of pycnodysostosis and may provide new drug targets for diseases involved in OC-related abnormal bone homeostasis.
Hum Mol Genet 2007 Feb 15
PMID:Novel pycnodysostosis mouse model uncovers cathepsin K function as a potential regulator of osteoclast apoptosis and senescence. 1721 Jun 73

Transcription factors MITF and PU.1 collaborate to increase expression of target genes like cathepsin K (Ctsk) and acid phosphatase 5 (Acp5) during osteoclast differentiation. We show that these factors can also repress transcription of target genes in committed myeloid precursors capable of forming either macrophages or osteoclasts. The direct interaction of MITF and PU.1 with the zinc finger protein Eos, an Ikaros family member, was necessary for repression of Ctsk and Acp5. Eos formed a complex with MITF and PU.1 at target gene promoters and suppressed transcription through recruitment of corepressors CtBP (C-terminal binding protein) and Sin3A, but during osteoclast differentiation, Eos association with Ctsk and Acp5 promoters was significantly decreased. Subsequently, MITF and PU.1 recruited coactivators to these target genes, resulting in robust expression of target genes. Overexpression of Eos in bone marrow-derived precursors disrupted osteoclast differentiation and selectively repressed transcription of MITF/PU.1 targets, while small interfering RNA knockdown of Eos resulted in increased basal expression of Ctsk and Acp5. This work provides a mechanism to account for the modulation of MITF and PU.1 activity in committed myeloid progenitors prior to the initiation of osteoclast differentiation in response to the appropriate extracellular signals.
Mol Cell Biol 2007 Jun
PMID:Eos, MITF, and PU.1 recruit corepressors to osteoclast-specific genes in committed myeloid progenitors. 1740 96


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