Prohibitin in breast cancer cell lines: loss of antiproliferative activity is linked to 3' untranslated region mutations.

The evolutionarily conserved prohibitin gene is located on human chromosome 17q21, and two alleles have been identified. Our previous studies characterizing prohibitin in immortalized cells, classified into four complementation groups (A-D) based on the ability of whole-cell hybrids to become senescent, have suggested that it has tumor suppressor activity in group B cells. Only the cell lines assigned to group B are sensitive to the antiproliferative activity of prohibitin, and all are homozygous for an allele designated B because of its exclusive association with this group. Prohibitin genotyping of 22 breast cancer cell lines identified 17 homozygous for the B allele, 5 homozygous for the non-B allele, and no heterozygotes. Four of these cell lines were chosen for further characterization of prohibitin. In cell proliferation assays, the homozygous B breast cancer cell lines (BT-20, SK-BR-3, and MCF7) are all inhibited from traversing the cell cycle following the introduction of wild-type prohibitin transcripts. The cell line homozygous for the alternative non-B allele (BT-549) is not inhibited by transcripts. All of the breast cancer cell lines overexpress the longer form of the prohibitin mRNA (1.9 kb) and the protein. Mutational analysis of the protein-coding region detected no mutations in any of the lines. However, BT-20, SK-BR-3, and MCF7 cells are all mutated in the final 200 bases of the 3' untranslated region (3'UTR) exclusive to the 1.9-kb transcript, but BT-549 cells had no alterations in this region of the 3'UTR. Functional mapping experiments performed in the mutated SK-BR-3 line showed that the wild-type 3'UTR alone is sufficient to inhibit cell cycle progression, indicating that the antiproliferative activity of the prohibitin transcript is localized to this region. Overall, our results show that most (80%) of the cell lines derived from breast tumors have a common prohibitin genotype, suggesting that they belong to the same group of immortalized cells, group B. The results also show that the prohibitin 3'UTR exhibits the characteristics of a trans-acting regulatory RNA (riboregulator), the tumor suppressor activity of which is inactivated by mutation in group B immortalized cells.

The 3' untranslated region of prohibitin and cellular immortalization.

We have been studying the role of the evolutionarily conserved prohibitin gene in cellular immortalization and tumor suppression. Immortalized human cells are classified into four complementation groups (A, B, C, and D) based on the ability of fusion hybrids to become senescent. The present study expands our preliminary evidence showing that the antiproliferative activity of prohibitin is only effective in immortalized Group B cells and normal cells. Data presented here show that the expression of a prohibitin mRNA with a long 3' untranslated region (3'UTR) and prohibitin protein is elevated in immortalized cells from all complementation groups. However, all immortalized cells classified in complementation Group B, and no cell lines in any of the other groups, are sensitive to the antiproliferative activity of wild-type prohibitin transcripts. All Group B cells are also homozygous for one of two human prohibitin alleles that are distinguishable by two distinct intron polymorphism restriction sites. Interestingly, sequence analysis of the prohibitin gene from representatives of each of the complementation groups showed that the 3'UTR from Groups A, C, and D matched wild type; however, the sequence from all four Group B cell lines differed from wild type. Functional inhibition assays on truncated wild-type mRNA transcripts as well as 3'UTR specific wild-type and mutated transcripts show that the antiproliferative activity of prohibitin resides, at least in part, in the 3'UTR. These data suggest that the prohibitin 3'UTR may function as a trans-acting regulatory RNA (riboregulator) whose tumor suppressor activity has been inactivated by mutation in Group B cells.

Prohibitin antiproliferative activity and lack of heterozygosity in immortalized cell lines.

Experiments were performed to determine whether prohibitin, an evolutionarily conserved gene with antiproliferative activity, has a role in cellular immortalization. A cell proliferation assay was used to examine one human cell line from each of four established immortal complementation groups, termed A, B, C, and D, and a normal human diploid fibroblast line. Only normal and Group B cells were inhibited from traversing the cell cycle after introduction of wild-type prohibitin transcript. All of the immortalized cells expressed elevated levels of prohibitin mRNA and protein. Prohibitin gene structural characterization using Southern and single-strand conformation polymorphism (SSCP) analyses distinguished two alleles. One is cleaved at a polymorphic intronic EcoRI site, exhibits an exon 6-associated SSCP, and is homozygous only in Group B cells. The other is not cleaved at the EcoRI site, has a different exon 6 SSCP pattern, and is homozygous in Groups A, C, and D. In contrast, normal cells are heterozygous for the alleles. These results suggest that prohibitin may play a role as a tumor suppressor in the immortalization of Group B cells.