Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of isoforms of the CD44 is generated by alternative splicing of CD44 gene; CD44H: lacks all 10 alternative exons, CD44R: the alternative exons v8 to v10, CD44V: other group of variants which contains the alternative exon v6. In some tumors such as colorectal cancer, breast cancer, non-Hodgkin lymphoma, and melanoma, over-expressed CD44 isoform which contains such alternative-spliced variant exons may play a causative role in tumor metastasis. In lung cancer, however, the role of CD44 variants in tumor progression and metastasis is uncertain. In our study and reported literature, no definite correlation was observed between the expression of specific CD44 isoform and tumor progression or metastasis of lung cancer.
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PMID:[Expression of CD44 alternative splicing variants in lung cancer]. 763 11

Specific CD44 variant glycoproteins are overexpressed at particular stages of colorectal tumor progression. Some variants of the CD44 glycoprotein without exon v6 sequences appear at the earliest stage of tumorigenesis, i.e., in early adenomas. Expression of variants containing exon v6 sequences is largely restricted to the advanced stages of tumor development and in addition is more prevalent and intense in metastatic (Dukes C/D) than in nonmetastatic (Dukes A/B) carcinomas. The observation that CD44 variants containing a protein domain of CD44 that confers full metastatic potential to rat carcinoma and sarcoma cell lines is increasingly expressed during colorectal tumor progression indicates that this domain may have an important role in tumor progression and metastasis in humans. Information on v6 expression, which can be obtained by routine immunohistochemistry, may prove of important prognostic value, particularly in carcinomas (Dukes A and B) that have not yet given rise to detectable metastases.
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PMID:Expression of CD44 variant proteins in human colorectal cancer is related to tumor progression. 769 4

Advances in different fields of research have recently contributed to the understanding of melanoma progression. Genetic instability and mutations of putative melanoma susceptibility genes are key factors involved in increased melanoma risk. The identification of the responsible loci and genes by karyotyping and genetic linkage analysis of tumors, affected individuals, and their families will allow further insight into molecular mechanisms of melanoma development. One susceptibility gene is located on chromosome 9p21. Changes in adhesiveness and cell motility are important for tumor progression and may even represent prime factors determining aggressiveness and metastatic potential. In melanoma, several adhesion receptors of the integrin family (eg, alpha V beta 3, alpha 4 beta 1, alpha 2 beta 1) and the CD44 receptor are potentially relevant in this process. Several mechanisms appear to be involved in the escape of melanoma from immunologic control, 1) downregulation of surface-expressed major histocompatibility complex class I molecules and the failure of tumor cells to process endogenously synthesized proteins for antigen presentation, 2) inhibition of the interaction of cytotoxic T cells with melanoma cells, eg, by soluble adhesion molecules (intercellular adhesion molecule 1), and 3) induction and maintenance of clonal anergy in tumor cell-specific T cells.
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PMID:The role of genetic instability, adhesion, cell motility, and immune escape mechanisms in melanoma progression. 791 8

Flow cytometric analysis reveals that 5 human melanoma cell lines (M14, IGR3, ME1477, JUSO, GLL19) express both alpha and beta chain of the interleukin 2 receptor (IL-2R alpha and IL-2R beta). These chains are able to specifically bind IL-2 and to form high-affinity heterodimers (IL-2R alpha beta). Analysis of poly A+ RNAs by Northern blot reveals the presence of typical transcripts for both the IL-2R alpha gene (3.6 kb) and the IL-2R beta gene (4 kb). Reverse transcription/polymerase chain reaction analysis allowed transcripts for the IL2R gamma (p64) gene to be detected in 3 of these melanoma cell lines (M14, IGR3, ME 1477). Incubation with human recombinant IL-2 modifies in IL-2R alpha+beta+gamma+ (M14) the expression of several surface molecules: down-regulation of ICAM-1, HLA class I and HLA-DR and up-regulation of CD44. IL-2 is also active on IL-2 alpha+beta+gamma- cell lines since it decreases ICAM-1 and HLA class-II expression at the surface of JUSO cells. Down-regulation of ICAM-1, whose expression in melanoma cells is a marker of tumor progression, is detectable within 3 hr in M14 cells and is maximal after 48 hr incubation, at IL-2 concentrations corresponding to the high-affinity heterodimers. This feature is specific since it is partially inhibited by MAbs directed against the IL-2 binding site of the IL-2R alpha (MAR93, 10T14) and IL-2R beta (MiK beta 1, TU27) chains. Our data support the notion of a direct effect of IL-2 on human melanoma cells. Modulation of the expression of surface molecules which is important for the interaction with immunocompetent cells or for tumor progression, could have a role to play during in vivo IL-2 treatment of human melanomas.
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PMID:Human melanoma cells express a functional interleukin-2 receptor. 834 47

A recently described splice variant of CD44 expressed in metastasizing cell lines of rat tumors has been shown to confer metastatic potential to a non-metastasizing rat pancreatic carcinoma cell line and to non-metastasizing sarcoma cells. Homologues of this variant as well as several other CD44 splice variants are also expressed at the RNA level in human carcinoma cell lines from lung, breast, and colon, and in immortalized keratinocytes. Using antibodies raised against a bacterial fusion protein encoded by variant CD44 sequences, we studied the expression of variant CD44 glycoproteins in normal human tissues and in colorectal neoplasia. Expression of CD44 variant proteins in normal human tissues was readily found on several epithelial tissues including the squamous epithelia of the epidermis, tonsils, and pharynx, and the glandular epithelium of the pancreatic ducts, but was largely absent from other epithelia and from most non-epithelial cells and tissues. In human colorectal neoplasia CD44 variant proteins, including homologues of those which confer metastatic ability to rat tumors, were found on all invasive carcinomas and carcinoma metastases. Interestingly, focal expression was also observed in adenomatous polyps, expression being related to areas of dysplasia. The distribution of the CD44 variants in human tissues suggests that they play a role in a few restricted differentiation pathways and that in colorectal tumors one of these pathways has been reactivated. The finding that metastasis-related variants are already expressed at a relatively early stage in colorectal carcinogenesis and tumor progression, i.e., in adenomatous polyps, suggests the existence of a yet unknown selective advantage linked to CD44 variant expression. The continued expression in metastases would be compatible with a role in the metastatic process.
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PMID:A human homologue of the rat metastasis-associated variant of CD44 is expressed in colorectal carcinomas and adenomatous polyps. 841 89

Attempts to grow primary murine plasmacytomas in vitro have, to date, been largely unsuccessful. In this study, we demonstrate that long-term in vitro growth of primary plasmacytomas is accomplished by using feeder layers composed of stromal cells from the initial site of plasmacytomagenesis. The early neoplastic lines established in this manner are dependent on physical contact with the stromal layer, which is mediated in part by CD44, for growth and survival. The stromal cells provide at least two stimuli for the plasma cells, one being interleukin 6 and the second, of unknown nature, resulting from direct physical interaction that cannot be replaced by soluble factors. These plasma cell lines have been passaged for as long as 20 months yet still maintain characteristics associated with primary plasmacytomas as they will grow in vivo only in pristane-primed animals, indicating a continued dependence on the pristane-induced microenvironment characteristic of early-stage tumors. The ability to grow primary plasmacytomas in culture and maintain their "primary" properties provides a model system for detailed analysis of early events in plasma cell tumor progression involving neoplastic cells completely dependent on physical contact with a stromal feeder layer for survival and expansion.
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PMID:In vitro culture of primary plasmacytomas requires stromal cell feeder layers. 844 28

Oncogene-dependent regulation and tumor relatedness of CD44 expression were investigated in Balb/c 3T3 cells and their derivatives transformed with different ras oncogenes (metastatic tumor model) or the human c-sis oncogene (non-metastatic model). Ras transformants using either the Harvey or Kirsten oncogenes expressed high levels of cell surface CD44 protein that bound fluoresceinated hyaluronan (HA). Much lower levels of CD44 were expressed in parental 3T3 cells, ras- revertants generated from Kirsten-transformed cells, or c-sis transformants, confirming the significance of the ras oncogene in this upregulation. To determine whether endogenous HA regulates these parameters, hyaluronidase treatment of ras transformants exposed more cell surface CD44 to anti-CD44 antibody and increased fluoresceinated HA binding; this did not occur with 3T3 or c-sis transformants. CD44 expression and its HA-binding function were conserved in a panel of in vivo primary and lung metastatic tumor cell lines derived from ras transformants. Ras transformants also retained the ability to downregulate CD44 protein levels in confluent cultures which occurred through a translational or post-translational mechanism (as CD44 mRNA levels were not reduced). These results taken together demonstrate that ras-dependent regulation of CD44 may correlate with tumor progression and metastasis in vivo, possibly (although not exclusively) supporting CD44's importance in metastatic progression.
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PMID:Oncogene-dependent expression of CD44 in Balb/c 3T3 derivatives: correlation with metastatic competence. 852 19

Continuous progress has been achieved during recent decades in the therapy of metastasizing malignancies by improving chemotherapeutic strategies and new approaches in radiation therapy. Genetic manipulation of tumor cells and of the tumor fighting immune system is hoped to add significant contributions to curative interventions in disseminated tumors. That we are still far from eradicating death by malignant growth is due ultimately to our limited understanding of the cascade of events resulting in metastasis formation, which until recently was believed to rely on multiple rounds of mutation and selection processes. This implies an individually specific history of each metastatic tumor, which would rule out uniform diagnostic and therapeutic concepts. When it was noted in a rat tumor model that the transfer of cDNA of a single gene, a CD44 variant isoform (CD44v) covering the exons v4-v7, sufficed to initiate metastasis formation of a locally growing tumor, hope was created that a "metastogene" may have been identified. Although the idea of CD44v expression as a unifying concept for tumor progression was not sustained, the discovery of CD44v-initiated metastatic spread allowed a conceptually new hypothesis on tumor progression as a consequence of the reactivation of genetic programs of ontogeny, stem cell differentiation, and/or lymphocyte activation. Since distinct CD44 isoforms play an important role in these processes, unraveling the functions of this family of molecules can indeed provide a cornerstone in the understanding of tumor progression. This article summarizes briefly the present knowledge on known functions of CD44 isoforms with particular focus on parallels between physiological programs and tumor progression.
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PMID:CD44: physiological expression of distinct isoforms as evidence for organ-specific metastasis formation. 852 46

Cell adhesion receptors (eg, integrins and CD44) play an important role in invasion and metastasis during tumor progression. The increase in integrin alpha 4 beta 1 expression on primary melanomas has been reported to significantly correlate with the development of metastases. alpha 4 beta 1 is a cell surface heterodimer that mediates cell-cell and cell-extracellular matrix interactions through adhesion to vascular cell adhesion molecule (VCAM)-1 and to the IIICS region of fibronectin. To test the effects of alpha 4 beta 1 expression on tumor cell metastasis, Chinese hamster ovary cells were transfected with human alpha 4 cDNA. Whereas alpha 4-negative Chinese hamster ovary cells developed only pulmonary metastasis, alpha 4-positive Chinese hamster ovary cells developed bone and pulmonary metastasis in 3 to 4 weeks when injected intravenously into nude mice. Bone metastasis was inhibited by antibody against alpha 4 or VCAM-1. Expression of alpha 3 beta 1, alpha 6 beta 1, or alpha V beta 1 did not induce bone metastasis. Expression of alpha 4 beta 1 also induced bone metastasis in K562 human erythroleukemia cells injected into SCID mice. These results demonstrate that alpha 4 beta 1 can induce tumor cell trafficking to bone, probably via interaction with VCAM-1 that is constitutively expressed on bone marrow stromal cells.
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PMID:Induction of experimental bone metastasis in mice by transfection of integrin alpha 4 beta 1 into tumor cells. 854 26

CD44 is a cell surface receptor of hyaluronate that is implicated in the regulation of tumor growth and metastatic potential. Transformation of colon mucosa to carcinoma is associated with overexpression of several CD44 alternative splice variants. The functional roles of CD44 isoforms in colon carcinoma tumor progression remain unclear. CD44H expression is downregulated in colon carcinomas compared to paired normal mucosa. In the present study we demonstrate that reintroduction of CD44H back into colon carcinoma cells by stable transfection reduces their in vitro growth rate and tumorigenicity. Examination of several colon carcinoma cell lines and use of mutant CD44H reveal that this in vitro and in vivo growth reduction requires the ability of CD44H to bind hyaluronate. These observations indicate that the CD44H downregulation associated with transformation of mucosa to colon carcinoma may provide the carcinoma cells with a growth advantage. Furthermore, the reduction in tumor growth rate mediated by reintroduction of CD44H into colon carcinoma cells is dependent on its ability to bind hyaluronate.
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PMID:CD44 hyaluronate binding influences growth kinetics and tumorigenicity of human colon carcinomas. 857 Jan 72


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