QPCR demonstrated in patients ≤45 years a higher expression of genes that are associated with carcinogenesis (CTNNB1, STK11, CDKN2A, HGF, MET) as well as tumor suppressors that constitute an enhanced radio-sensitivity (ATM, BRCA1E2F1, FHIT).
To establish an animal model and to explore the role of FHIT in tumorigenesis, we have developed a mouse strain carrying one or two inactivated Fhit alleles.
Our data indicate that LOH at chromosome 3p14.2-p25 is specific for conventional RCC and that loss of one allele of both the VHL and FHIT genes occurs in early stage of tumorigenesis.
Our results show that FHIT protein expression is completely absent or reduced in IBD, suggesting that the FHIT gene might be associated with the oncogenesis and progression of IBD, an early event from inflammatory conditions to carcinoma in IBD.
The present findings indicated that folate deficiency, FHIT gene promoter hypermethylation and reduced expression were significantly associated with cervical carcinogenesis.
Further investigation into the role of the FHIT protein in the epidermis is warranted to determine if the reduced/lost expression of FHIT observed in a subset of the cutaneous SCC is contributing to tumorigenesis.
The character, role and impact of FHIT gene alterations, for which recent studies have shown that the gene has a role in the early stage of carcinogenesis in breast cancer, are still unclear.
We conclude that 3p LOH is a universal phenomenon in RCC, but has different underlying mechanisms, molecular targets, and implications in the different morphotypes, although FHIT inactivation may play a role in both cRCC and chRCC tumorigenesis.
Our findings support the conclusion that FHIT/FRA3B abnormalities are associated with lung cancer pathogenesis but that FHIT abnormalities differ from the types of mutations and lack of wild-type transcript found in classic tumor suppressor genes, and functional studies are needed to define the role of FHIT in thoracic tumorigenesis.
To clarify the role of the FHIT protein in laryngeal squamous cell carcinoma (LSCC) and to examine whether the expression of FHIT could be a prognostic parameter for laryngeal carcinogenesis, we investigated the relationship between the expression of the FHIT protein, other tumor suppressor gene products (p53 and p16), the cellular proliferation marker (Ki-67) and the survival time of patients with LSCC.
The genetic susceptibility of codon 98 of the FHIT gene (3p14.2) in cervical carcinogenesis was determined by examining the effect of the gene and environmental factors vs. the different stages of cervical intraepithelial lesions and the different histopathologic types of invasive cervical cancers.
We conclude that the abnormalities of FHIT, presumably associated with the unstable nature of FRA3B within the FHIT gene, are involved in the carcinogenesis of gastric cancer, and lack of mismatch repair (MMR) could possibly promote its alteration in a subset of gastric tumours.
Fragile histidine triad (FHIT) gene deletions are among the earliest and most frequent events in carcinogenesis, particularly in carcinogen-exposed tissues.
To evaluate the significance of FHIT gene abnormalities in gastric carcinogenesis, we examined the allelic status and transcripts of the gene in 23 primary gastric carcinomas as well as 7 gastric carcinoma cell lines.
However, taken together, our results provide evidence that breakage and rearrangement within the FRA3B fragile site sequences result in alterations of FHIT and are likely to be involved in carcinogenesis.
Consequently, the paucity of documented inactivating point mutations cannot be used to judge the presence or absence of putative FHIT-related selective pressures that act during tumorigenesis of RER(-) neoplasia.