Bernard Fernandez scite author profile

Recent studies have shown that orthotopic (transurethral) transplantation of human bladder cancer cell lines into nude mice permits tumor growth that accurately reflects their clinical malignant status in the original host. Thus, such a system allows a unique opportunity to analyze the genetic events involved in the conversion of low-grade bladder cancer, the vast majority of which are curable, to the highgrade life-threatening form of the disease. Since 5-10% of transitional cell carcinomas (TCCs) have been shown to contain a mutated HRAS gene, and protein expression levels of all forms ofHRAS have been correlated with TCC progression, we chose to study the contribution of the HRAS oncogene in bladder tumor progression. We evaluated the effects of transfection of normal or mutated HRAS genes into a human TCC, called , that behaves as a superficial noninvasive papillary tumor after transurethral orthotopic inoculation into athymic nude mice. We found that overexpression of either transfected normal or mutated HRAS genes converted RT-4 cells to express an invasive phenotype remarkably similar in nature to the clinical behavior of high-grade bladder carcinomas. These results suggest a role for overexpressed normal or mutated RAS genes in human bladder carcinoma progression, and highlight the importance of using orthotopic inoculation systems for evaluation of the contribution of oncogenes to malignant tumor progression.Dominantly acting cellular transforming genes belonging to the RAS family of oncogenes have been detected in a wide spectrum of animal and human cancers by DNA-mediated gene transfer experiments in which immortalized nonneoplastic cells are used as recipients (1)(2)(3). By employing such assays in combination with gene cloning and sequencing analysis, it has been estimated that 5-10% of human transitional cell carcinomas (TCCs) contain activated/mutated RAS oncogenes (3-5). Moreover, of the three known RAS family members, by far the most common found to be mutated in urothelial malignancies is HRAS (4-6). TCCs can be broadly classified in two forms: superficial and invasive. Moreover, although the majority of superficial bladder carcinomas are curable, 2-25% progress to the invasive lifethreatening form of the disease (7). This raises the question of whether the presence of activated RAS oncogenes is causally associated with the degree of invasiveness of such tumors. The various studies cited above suggest that based on prevalence comparisons of TCCs with mutated RAS and invasive TCCs this is probably not the case (4-6). However, in view of the low frequency of occurrence of activated RAS genes combined with the relatively small number of bladder tumors analyzed, it is difficult to rule out the possibility that patients having tumors with an activated RAS oncogene constitute a distinct clinical subgroup of invasive tumors.The possible relationship of RAS gene expression to bladder cancer development and progression has also been analyzed by immunohistochemical techniques. These studies have,...

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Enhanced Tumorigenicity, Melanogenesis, and Metastases of a Human Malignant Melanoma After Subdermal Implantation in Nude Mice

Cornil

Man

Fernandez

et al. 1989

JNCI Journal of the National Cancer Institute

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Transplantation of human tumors into the organ or tissue of their origin (orthotopic transplantation) in nude mice can result in significant enhancement of tumor growth and metastases, compared with sc (ectopic) transplantation. Because melanocytes are normally found in the epidermal-dermal junction, intradermal inoculation of melanoma cells might be expected to improve their potential for malignant growth as xenografts. The purpose of our study was to examine this possibility. We found that because mouse epidermis and dermis are so thin, it was not possible to inject a bolus of tumor cells intradermally; instead the cells were actually deposited in the most superficial layer of the subcutis (i.e., subdermally). We evaluated the behavior of cells from a human melanoma cell line after sc or subdermal inoculation into National Institutes of Health Swiss athymic nude mice. The cells used were from (1) the predominantly amelanotic human malignant melanoma cell line MeWo, originally established from a melanotic lymph node metastasis, and (2) two MeWo variants resistant to wheat germ agglutinin (WGAr), which were selected for altered malignant capacities. Whereas 5 X 10(5) MeWo cells were required to achieve 100% tumor take with sc injection, only 2 x 10(4) cells were required with subdermal inoculation. Subdermal injection of the MeWo cells resulted in the development of highly melanotic and nonencapsulated primary tumors, which grew quickly into the dermis and epidermis and metastasized at high frequency to draining lymph nodes. In contrast, the tumors that developed after sc injection were found in the deepest layer of the subcutis and were predominantly amelanotic and encapsulated; they rarely metastasized to lymph nodes.(ABSTRACT TRUNCATED AT 250 WORDS)

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Muscle satellite cell heterogeneity: in vitro and in vivo evidences for populations that fuse differently

et al. 2004

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During development, muscle growth results from the proliferation of satellite cells (SC) and their fusion with fibers. Several studies revealed heterogeneity of SC population notably based on the proliferation rate. Here, we examined the SC characteristics of turkey skeletal muscles in terms of proliferation and more specifically fusion, to define if the ability of these cells to fuse may represent a distinct characteristic between them and could be directly associated with their proliferation properties. Freshly extracted SC were plated in clonal condition and their proliferation rate was assessed 11 days later. To investigate the SC fusion behavior, in vitro and in vivo approaches were developed. Highly and slowly proliferative SC were initially labeled with a nuclear beta-galactosidase (beta-Gal) activity and co-cultured with differentiated primary cultures. After 5 days, distribution of beta-Gal positive (beta-Gal+) nuclei was examined. Also, the two labeled SC types were transplanted into different muscles in autologous model. One week later, number of beta-Gal+ nuclei per fiber and diameter of fibers displaying beta-Gal+ nuclei were determined. In vitro, we showed that SC from turkey skeletal muscle are present as a heterogeneous population in terms of proliferation. Examination of their fusion properties in vitro as well as in vivo revealed that highly proliferative SC exclusively exhibited fusion with differentiated myotubes or myofibers, whereas slowly proliferative SC mainly fused together. Collectively, these data demonstrate for the first time that SC with different proliferation rate also intrinsically differ in their fusion potential, suggesting distinct roles for these sub-populations in muscle growth.

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Branching N-Linked Oligosaccharides in Breast Cancer

Korczak

Goss

Fernandez³

et al. 1994

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