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Ovarian Kaleidoscope Database (OKdb)

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keratin 19 OKDB#: 4447
 Symbols: KRT19 Species: human
 Synonyms: K19, CK19, K1CS,K19, CK19, K1CS, MGC15366,  Locus: 17q21.2 in Homo sapiens


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General Comment NCBI Summary: The protein encoded by this gene is a member of the keratin family. The keratins are intermediate filament proteins responsible for the structural integrity of epithelial cells and are subdivided into cytokeratins and hair keratins. The type I cytokeratins consist of acidic proteins which are arranged in pairs of heterotypic keratin chains. Unlike its related family members, this smallest known acidic cytokeratin is not paired with a basic cytokeratin in epithelial cells. It is specifically expressed in the periderm, the transiently superficial layer that envelopes the developing epidermis. The type I cytokeratins are clustered in a region of chromosome 17q12-q21. [provided by RefSeq, Jul 2008]
General function Cytoskeleton
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Cellular localization Cytoskeleton
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Ovarian function
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Expression regulated by
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Ovarian localization Surface epithelium
Comment Immunocytochemical Localization of Cytoplasmic and Nuclear Intermediate Filaments in the Bovine Ovary during Folliculogenesis. Wendl J et al. The cellular cytoskeleton is composed of three fibrillar systems, namely actin microfilaments, microtubules and intermediate filaments (IFs). It not only is a structural system, which mediates functional compartmentalization, but also contributes to many cellular processes such as transport, mitosis, secretion, formation of cell extensions, intercellular communication and apoptosis. In this study, we have examined the distribution of four groups of IFs cytokeratins (CKs), vimentin, desmin and lamins] in the somatic and germinal cells of the bovine ovary using RT-PCR and immunohistochemical techniques. Using RT-PCR, specific transcripts for all intermediate proteins studied (CK8, CK18, desmin, vimentin, lamin A/C and lamin B1) were detected. A characteristic immunohistochemical staining pattern was observed for the different IFs within the ovary. In this study, we used antibodies against type I CK (acidic CKs: CK14, CK18 and CK19) and type II CK (basic CKs: CK5 and CK8). Among these, only antibodies against CK18 gave a characteristic pattern of immunostaining in the ovary, which included the surface epithelium, the follicle cells, the endothelium of blood vessels and rete ovarii. Antibodies against all other CKs resulted in a weak staining of a limited number of cellular structures (CK5 and CK19) or were completely negative (CK8 and CK14, apart from the surface epithelium). Vimentin antibodies resulted occasionally in a weak staining of the granulosa cells of primary and secondary follicles. In late secondary follicles, the basal and the most apical follicle cells contacting the zona pellucida usually showed a marked immunostaining for vimentin. In antral follicles, three different immunostaining patterns for vimentin were observed. Desmin immunostaining was confined to the smooth muscle cells of blood vessels. Although mRNA for lamin A/C and lamin B1 could be demonstrated using RT-PCR, no immunostaining was found for lamins, neither in the follicle cells nor in the oocytes. Marker profile of different phases in the transition of normal human ovarian epithelium to ovarian carcinomas. [van Niekerk CC et al. To investigate whether early changes in the transformation of normal ovarian epithelial cells into tumor cells can be detected with monoclonal antibodies, a comparative immunohistochemical study was performed on normal human ovarian mesothelial cells, cystomas, cystadenomas, ovarian carcinomas, as well as granulosa cell tumor. Using monoclonal antibodies against different keratin subtypes, it was shown that mesothelial cells, ovarian cysts, cystadenomas, and carcinomas all reacted positively with broad-spectrum anti-keratin monoclonal antibodies (MAbs), as well as with MAbs to keratins 7, 8, 18, and 19. Keratins 4 and 13 were not found in mesothelial cells, but positive groups of cells were identified in several cystomas, adenomas, and carcinomas. While mesothelial cells did not react with the pan-epithelial marker BW495/36, invaginating metaplastic mesothelial cells, inclusion cysts, cystomas, adenomas, and carcinomas showed an increasing reactivity with BW495/36, with an increasing degree of malignancy. The reactivity of MAbs against ovarian carcinoma-associated antigens (OV-TL 3, OC 125, MOv 18, and OV-TL 10) was limited to weak staining reaction in some mesothelial cells but were found to be positive on more than 50% of the ovarian cystadenomas and more than 90% of the ovarian carcinomas. Thecal and granulosa cells of primordial, primary, and secondary follicles all reacted positively with antibodies to the broad-spectrum keratins OV-TL 12/5 and RCK 102, and to keratins 8 and 18, but not with keratins 4, 7, 13, and 19. These keratins decreased or disappeared in granulosa cells of mature follicles (Graafian follicles), whereas granulosa cell tumors did not react with anti-keratin antibodies. The reactivity of BW 495/36 was negative or limited to traces in some granulosa cells. Ovarian carcinoma-associated antigens were not expressed in granulosa cells or granulosa cell tumors. The data indicate that mesothelial cells undergoing metaplastic changes finally resulting in ovarian cystadenomas (and carcinomas) initiate the synthesis of a 200-kd glycoprotein recognized by MAb (BW 495/36), the production of ovarian carcinoma associated antigens, in addition to focal production of keratin 4 and/or 13, as seen in several samples. The granulosa cell tumors decrease or switch off their keratin production and remain negative for the 200-kd glycoprotein and the ovarian carcinoma-associated antigens.
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created: Feb. 11, 2011, 4:04 p.m. by: hsueh   email:
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last update: Jan. 26, 2012, 3:47 p.m. by: hsueh    email:



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