Eldon Jupe

Prohibitin: Potential role in senescence, development, and tumor suppression

Prohibitin is an evolutionarily conserved gene with homologues found in organisms ranging from yeast to man. In man the gene is located on chromosome 17 at q21. The deduced amino acid sequences of the protein products from mouse and rat are identical; and these differ from the human protein sequence by a single conserved amino acid. Prohibitin has antiproliferative activity and available data suggest a role in such diverse processes as normal cell cycle regulation, replicative senescence, cellular immortalization, and the development of sporadic breast tumors. Although its functional activity is presently unknown, the 30,000-Da protein has been located in the inner membrane of mitochondria, where it is postsynthetically modified, as well as on the plasma membrane of B cells, where it is associated with the IgM receptor. Prohibitins evolutionary conservation and ubiquitous expression indicate that it is a fundamentally important gene; and current data suggest a functional role in such dissimilar processes as development, senescence, and tumor suppression.

Single nucleotide polymorphism in prohibitin 3′untranslated region and breast-cancer susceptibility

The RNA encoded by the 3 untranslated region of the prohibitin gene arrests cell proliferation by blocking the transition between the G1 and S phases of the cell cycle. The product of a variant allele (T allele) is inactive. We did a case-control study of prohibitin genotype in 205 women with breast cancer and 1046 healthy controls. The results showed an association between the T allele and breast cancer in women who reported a first-degree relative with the disease (odds ratio 2.5, p=0.005). An even stronger association was found in a subset of women diagnosed at or before age 50 years (4.8, p=0.003). These data suggest that prohibitin genotyping has value in assessing risk of breast cancer in women aged 50 years or younger with at least one first-degree relative with the disease.

Prohibitin and the senescent phenotype

Prohibitin is an evolutionarily conserved gene that has antiproliferative activity, is ubiquitously expressed, and appears to be essential for cell survival. The gene codes for a 30 kD, post-synthetically modified protein located primarily in the mitochondria. It functionally inhibits cell cycle traverse and DNA synthesis, but its mechanism of action is presently unknown. Prohibitin is proposed to be a member of a new class of tumor suppressor genes whose inhibitory activity plays a role in the dominant senescent phenotype. Its involvement in senescence has been postulated from results obtained from such diverse systems as yeast and human diploid fibroblasts. Additional data show that prohibitin is involved in one of the limited number of pathways that results in the loss of the senescent phenotype and leads to cellular immortalization. Its involvement, however, occurs downstream in the pathway and is postulated to be part of the lost tumor suppressor activities associated with tumorigenicity.

Regions of evolutionary conservation between the rat and human prohibitin-encoding genes

We have analyzed and compared the 5 promoter region, the intron structure and the exon-intron flanking sequences in the rat and human prohibitin-encoding genes (PHB). Comparative analysis of a 350-nt region immediately 5 to and including the first exon identifies eight highly conserved regions, four of which correspond to binding sites for known transcriptional control proteins (CCAAT box, SV40 site and two Sp1 sites). The promoter lacks a TATA box. Four transcription start points (tsp) clustered within a 35-bp region were identified by rapid amplification of cDNA ends (RACE). The exon-intron boundaries in rat and human are highly conserved, with identical positioning of splice junctions. PCR analysis with conserved exon primers was used to detect length variation between rat and human PHB, and length differences were observed in all of the introns.

Expression of prohibitin 3′ untranslated region suppressor RNA alters morphology and inhibits motility of breast cancer cells

The prohibitin 3′ untranslated region (3′UTR) belongs to a novel class of non-coding regulatory RNAs. It arrests cell cycle progression by blocking G1-S transition in breast and other cancers. Our previous studies comparing MCF7 derived clones constitutively expressing a common allelic form of prohibitin RNA (UTR/C) to various controls demonstrated that it functions as a tumor suppressor. Here, we further characterized the morphology and motility of these transgenic breast cancer cells when grown in cell culture and on nude mice. In contrast to empty vector (EV) cells, UTR/C cells were observed to grow in an organized manner with more cell-cell contact and differentiate into structures with a duct-like appearance. Computer assisted cytometry to evaluate differences in nuclear morphology was performed on UTR/C and EV tissues from nude mice. Receiver operator curve areas generated using a logistic regression model were 0.8, indicating the ability to quantitatively distinguish UTR/C from EV tissues. Keratinocyte growth factor-induced motility experiments showed that migration of UTR/C cells was significantly reduced (80–90%) compared to EV cells. Together, these data indicate that this novel 3′UTR influences not only the tumorigenic phenotype but also may play a role in differentiation and migration of breast cancer cells.