Giovanni Santelli

Thymosin β-10 Gene Overexpression Is a General Event in Human Carcinogenesis

The β-thymosins comprise a family of structurally related, highly conserved acidic polypeptides, originally isolated from calf thymus. Recently, we have demonstrated the overexpression of thymosin β-10 (TB10) in rat thyroid transformed cell lines and in human thyroid carcinoma tissues and cell lines. To verify whether TB10 overexpression is a general event in the process of carcinogenesis, we have analyzed TB10 mRNA levels in human colon carcinomas, germ cell tumors of different histological types, breast carcinomas, ovarian carcinomas, uterine carcinomas, colon and esophageal carcinoma cell lines. Overexpression of the TB10 gene was detected in all of the neoplastic tissues and cell lines compared to the respective normal tissues. Moreover, the mouse model of skin carcinogenesis induced by the combined action of chemical carcinogens and phorbol esters was used to identify the stage of TB10 gene induction. The expression was almost undetectable in normal keratinocytes, its induction occurred even at the papilloma stage, however a further increased expression was observed in the carcinoma derived cell lines. Finally, immunohistochemical analysis of some breast, colon and ovary carcinoma samples by using specific anti-TB10 antibodies revealed the presence of the TB10 protein in all of the neoplastic tissues, but not in the respective normal tissues. Therefore the TB10 detection may be considered a potential tool for the diagnosis of several human neoplasias.

Isolation of a SIR-like gene, SIR-t8, that is overexpressed in thyroid carcinoma cell lines and tissues

We used subtractive library screening to identify the changes that occur in gene expression during thyroid cell neoplastic transformation. Complementary DNA from normal thyroid cells (HTC 2) was subtracted from a complementary DNA library constructed from a human thyroid papillary carcinoma cell line. The library was screened for genes upregulated in human thyroid papillary carcinoma cell line cells, and several cDNA clones were isolated. One of these clones has a sirtuin core and high homology with the human silent information regulator protein family. This clone, designated ‘SIR-T8’, was overexpressed in human thyroid carcinoma cell lines and tissues, but not in adenomas. The human SIR-T8 protein has a molecular weight of 39 kDa and is primarily located in the cytoplasm under the nuclear membrane. The SIR-T8 gene is located on chromosome 17q25-1.

RET/PTC1 oncogene signaling in PC Cl 3 thyroid cells requires the small GTP-binding protein Rho

Thyroid papillary carcinomas are characterized by RET/PTC rearrangements that cause the tyrosine kinase domain of the RET receptor to fuse with N-terminal sequences encoded by heterologous genes. This results in the aberrant expression of a ligand-independent and constitutively active RET kinase. We analysed actin reorganization induced by the RET/PTC1 oncogene in PC Cl 3 rat thyroid epithelial cells. Differently from oncogenes Src, Ras and Raf, RET/PTC1 caused actin filaments to form prominent stress fibers. Moreover, stress fibers were identified in human thyroid papillary carcinoma cell lines harboring RET/PTC1 rearrangements but not in thyroid carcinoma cells negative for RET/PTC rearrangements. RET/MEN 2A, a constitutively active but unrearranged membrane-bound RET oncoprotein, did not induce stress fibers in PC Cl 3 cells. Induction of stress fibers by RET/PTC1 was restricted to thyroid cells; it did not occur in NIH3T3 fibroblasts or MCF7 mammary cells. RET/PTC1-mediated stress fiber formation depended on Rho but not Rac small GTPase activity. In addition, inhibition of Rho, but not of Rac, caused apoptosis of RET/PTC1-expressing thyroid cells. We conclude that Rho is implicated in the actin reorganization and cell survival mediated by the chimeric RET/PTC1 oncogene in thyroid epithelial cells, both phenotypes being cell type- and oncogene type-specific.

Ligand stimulation of a Ret chimeric receptor carrying the activating mutation responsible for the multiple endocrine neoplasia type 2B

Inherited activating mutations of Ret, a receptor tyrosine kinase, predispose to multiple endocrine neoplasia (MEN) types 2A and 2B and familial medullary thyroid carcinoma. To investigate the effects induced by acute stimulation of Ret, we transfected both PC12 and NIH 3T3 cells with a molecular construct in which the ligand-binding domain of the epidermal growth factor receptor was fused to the catalytic domain of Ret. Acute stimulation of the chimeric receptor induced PC12 cells to express a neuronal-like phenotype. Moreover, we introduced the dominant mutation, responsible for the multiple endocrine neoplasia type 2B, in the catalytic domain of the Ret chimera. Expression of the mutant chimera, in the absence of ligand stimulation, induces the PC12 cells to acquire a flat morphology with short neuritic processes and transforms the NIH 3T3 cells. Stimulation of the mutant chimera with epidermal growth factor causes a drastic overgrowth of long neuritic processes, with the induction of the suc1-associated protein tyrosine phosphorylation in PC12 cells and higher transforming efficiency in NIH 3T3 cells. These data indicate that the gain-of-function MEN2B mutation does not abrogate ligand responsiveness of Ret and suggest that the presence of Ret ligand could play a role in the pathogenesis of the MEN2B syndrome.

Thymosin β-10 Protein Synthesis Suppression Reduces the Growth of Human Thyroid Carcinoma Cells in Semisolid Medium

Beta-thymosins are structurally related, highly conserved acidic polypeptides, originally isolated from calf thymus. We have recently shown that the TB10 gene is overexpressed in human thyroid carcinoma cell lines and tissues, particularly in undifferentiated thyroid carcinomas, but expressed at an undetectable level in normal thyroid cells. The precise role of thymosin beta-10 (TB10) activity in maintaining the malignant phenotype of thyroid cell lines is unknown. To investigate TB10 function and relevance in a model system we used an antisense methodology to suppress TB10 protein synthesis in two human thyroid carcinoma cell lines (NPA and ARO). The growth in soft agar of NPA and ARO cells carrying a TB10 construct in an antisense orientation was significantly reduced. Conversely, anchorage-dependent growth was unchanged in NPA and ARO cells carrying the TB10 construct in a sense orientation or carrying the backbone vector. TB10 expression also affected actin organization. In fact, stress fibers were long and thick in ARO cells in which TB10 expression was suppressed by the antisense construct. Conversely, they were scarce and short in the vector-transfected ARO cells. These data suggest that TB10 plays a critical role in the regulation of anchorage-independent growth and assembly of actin filaments.

Synthesis and biological activity of pseudopeptides inhibitors of Ras farnesyl transferase containing unconventional amino acids

A study was performed on the structure-activity relationships of a series of phenol derivatives, CVFM analogs, derived from the two most active compounds of a first series (1A and 1B) of inhibitors of Ras farnesyl transferase (FTase) that we have recently described. We report the synthesis and the activity of a second series of compounds in which the phenylalanine residue was replaced by unconventional aromatic and non-aromatic amino acids, with varying electronic, lipophilic, steric and conformational properties. The compounds showed to be significantly less active than reference compounds against FT, with the only exception of derivative 3A (IC50 = 3 microM), which is slightly more active than 1A but not 1B. Subsequently we tested the effects of compounds 1A, 1B and 3A, 3B on the anchorage-dependent growth of two epithelial cell lines of rats, FRTL-5 and the same line v-Ha-ras transformed. Compound 3A derived from lead compound 1A, showed an appreciable selectivity against transformed cells. In contrast, compounds derived from derivative 1B had only a modest cellular activity.

Phenol-derived CVFM analog inhibitors of Ras Farnesyltransferase possessing cellular in vitro activity 1

Abstract A study was performed on structure-activity relationships of a series of phenol-derived, CVFM analogs, inhibitors of Ras Farnesyltransferase (FTase). The effect of various substituents on the phenol ring was examined, while the VFM moiety of the potent inhibitor CVFM was kept constant. The FTase inhibitory activity, reported as IC 50 in table I , was influenced by both the chemical properties and the relative position of the substituents on the phenolic ring. The most active compounds in this series contained a chloro or bromine substituent on the phenolic ring. Subsequently we have tested the effects of these FTase inhibitors on the anchorage-dependent growth of two rat epithelial cell lines, FRTL-5 and the same line v-Ha-ras transformed. While most of the compounds were inactive, two showed a growth inhibitory effect: compound 4 was active against normal as well against transformed cells while derivative 13 was active only against transformed cells.