[Download] "Sensitive Methods for the Detection of Ras Mutations in Lung Cancer: Some Answers, More Questions (Editorial)" by Clinical Chemistry # Book PDF Kindle ePub Free

📘 Read Now     📥 Download

eBook details

• Title: Sensitive Methods for the Detection of Ras Mutations in Lung Cancer: Some Answers, More Questions (Editorial)
• Author : Clinical Chemistry
• Release Date : January 01, 1998
• Genre: Chemistry,Books,Science & Nature,
• Pages : * pages
• Size : 179 KB

Description

The ras family consists of three evolutionarily conserved genes, H-ras, N-ras, and K-ras. The ras genes code for 21-kDa proteins that mediate signal transduction between cell surface receptors and intracellular regulatory molecules. The proteins attach to the inner surface of the cytoplasmic membrane via a posttranslationally added farnesyl group. This lipid modification is essential for function, and considerable recent interest has focused on agents that inhibit the enzyme responsible, farnesyl transferase, as a mechanism to block the growth of tumors having ras mutations (1). Ras is homologous to a larger family of "G proteins" that exist in two states, GDP- and GTP-bound. Only the GTP-bound form is effective at mediating growth response, and there is a dynamic interconversion between the two forms. Point mutations of ras are the most frequent dominant oncogene mutation found in human tumors and usually target only three codons: 12, 13, and 61. Most activating mutations are defective in GTPase activity and thus are locked into the GTP-bound form, resulting in continuous growth stimulation. Detection of ras mutations in tumors enables us to understand cancer biology and pathogenesis and may be of clinical importance by providing information useful for early diagnosis and prognosis and the development of novel therapeutic approaches (1, 2). As discussed below, ras mutations may be detected by a large variety of methodologies, both conventional and, as reported in this issue of Clinical Chemistry, supersensitive (3). Although about 20-25% of human tumors have ras mutations, especially involving the K-ras gene, the distribution demonstrates considerable tumor type specificity (4, 5). Thus, although K-ras mutations are found in nearly 90% of pancreatic carcinomas and about 50% of colorectal carcinomas, they are rare in breast cancers. Lung cancers are an example of the heterogeneity of mutation frequency found in different histologic forms by conventional detection techniques. Of the three major forms of lung cancer, K-ras mutations are present in about 30% of adenocarcinomas, a small percentage of squamous cell carcinomas, and 1% of small cell carcinomas (5-7). ras mutations in lung cancers are almost exclusively found in smokers, and it is reasonable to assume that carcinogens in tobacco smoke directly cause the mutation (6, 8). The specific activating mutations in lung cancers are mostly G-to-T transversions, presumably from exposure to polycyclic aromatic hydrocarbons in cigarette smoke. ras mutations are also present in radon-associated tumors (9). ras mutations are associated with shortened survival with all stages of lung cancer. (10-13). In particular, substitution of a polar or charged amino acid for the wild-type glycine residue may be a negative prognostic indicator (14). Why ras mutations in lung cancers are a negative prognostic factor is unknown, because they are not associated with a higher metastatic rate or resistance to chemotherapy (15,16). Mutations may also be present in the putative precursor lesions of peripheral adenocarcinomas, namely foci of atypical adenomatous hyperplasia (17). In our experience, they are very rare in the nonneoplastic bronchial epithelium of lung cancer patients (18), although at least one report describes contrary findings (19). Spontaneously arising or nitrosamine-induced pulmonary tumors in mice and hamsters are almost exclusively adenocarcinomas and frequently contain activating ras mutations (20, 21), but rats may also develop ras-associated squamous carcinomas (22). Transgenic mice bearing an albumin enhancer/promoter linked to a mutated human H-ras gene develop multiple peripherally located pulmonary adenocarcinomas that are eventually lethal (23). Human bronchial epithelial cells transformed by v-K-ras form poorly differentiated adenocarcinomas in athymic nude mice (24). Despite the above cited evidence demonstrating the strong association between ras mutations and pulmonary

Ebook Free Online "Sensitive Methods for the Detection of Ras Mutations in Lung Cancer: Some Answers, More Questions (Editorial)" PDF ePub Kindle