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Repositorio Institucional de la Universidad de Murcia

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Browsing by Subject "Tumors"

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    Expression, localization and function of galectin-8, a tandem-repeat lectin, in human tumors
    (F. Hernández y Juan F. Madrid. Universidad de Murcia: Departamento de Biología Celular e Histología, 2014) Elola, María T.; Ferragut, Fátima; Cárdenas Delgado, Víctor M.; Nugnes, Lorena G.; Gentilini, Lucas; Laderach, Diego; Troncoso, María F.; Compagno, Daniel; Wolfenstein-Tode, Carlota; Rabinovich, Gabriel A.
    Galectin-8 (Gal-8) is a ‘tandem-repeat’-type galectin, which possesses two carbohydrate recognition domains connected by a linker peptide. Gal-8 complexity is related to the alternative splicing of its mRNA precursor, which is known to generate isoforms. Regarding its carbohydrate-binding specificity, Gal-8 has a unique feature among galectins, since its Cterminal domain has higher affinity for N-glycan-type branched oligosaccharides, while its N-terminal domain shows strong affinity for α2-3-sialylated or 3’-sulfated ß-galactosides. We integrate here the available information on Gal-8 expression in different tumor types and attempt to elucidate associations of its expression and localization during tumor progression with the overarching goal of analyzing its potential applications in diagnosis and prognosis. Differential diagnosis is still a prime concern in tumor pathology, and Gal-8 could be of great value in some types of primary or secondary tumors (i.e. papillary thyroid carcinoma, advanced colon carcinoma from patients with distant metastases, or metastases from primary lung carcinoma). The prognostic value of Gal-8 has been described for laryngeal carcinoma as well as advanced colon carcinoma. Further studies are needed to explain the relevance of Gal-8 and its isoforms in tumor pathology and their different intra- or extracellular roles (cytoplasmic, nuclear or extracellular) in tumor biology.
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    Mutation, replicative infidelity of DNA and aneuploidy sequentially in the formation of malignant pleomorphic tumors
    (Murcia : F. Hernández, 2007) Bignold, L.P.
    Mutations are thought to be involved in tumor formation because (i) tumor cells transmit their abnormalities to their descendants; and (ii) many carcinogens are mutagens. Aneuploidy is thought to be involved in tumor formation because (i) it is a common phenomenon, especially among malignant neoplasms; (ii) certain particular types of tumors are associated with specific karyotypic changes; and (iii) many immortal tumor cell lines are hyperploid. In recent years, acquired somatic cell replicative infidelity of DNA (“mutator phenotype”) has been suggested as a mechanism of tumor formation, because more somatic genomic events occur in malignant tumor cells than could be caused by repeated exogenous mutagenic insults. Previously, theories of the genomic pathogenesis of tumors have involved these mechanisms individually. Here it is suggested that all three mechanisms may play roles in the formation of certain tumor types. For example, a sequence could occur such that first, a mutation affects genomic elements for control of growth, and for replicative fidelity of DNA, leading to “mutator phenotype”. Second, when replicative infidelity of DNA results in mutation of genomic elements for mitotic-andchromosomal stability, aneuploidy develops. Third, an asymmetric mitosis (in the course of the aneuploid stage) could produce occasional cells in which the “bad copy” is lost (or an extra “good copy” is gained) of the original genomic element which had supported replicative fidelity of DNA. These resulting cells would regain fidelity of replication of DNA, and hence could give rise to populations which are relatively genomically stable, hyperploid and immortal.

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