Isoform specific changes in calcium transporters in colon and breast cancer cell lines

Calcium transporters play vital roles in the transport of calcium ions across cells of the mammary gland and the intestine. One such transporter is the plasma membrane Ca2+-ATPase (PMCA), of which there are 4 different genes (PMCA1-4). In these studies we investigated the hypothesis that the expression of PMCA is altered in HT-29 colon cancer cells during sodium butyrate and post-confluence mediated differentiation. We also investigated if PMCA expression is altered in breast cancer cell lines in an isofrom specific manner. Our results indicate isoform specific changes in PMCA mRNA and protein levels in HT-29 cells during differentiation, using real time RT-PCR and western blotting, respectively. We also observed pronounced alterations in the mRNA levels of the PMCA isoform linked to lactation (PMCA2) in a bank of breast cancer cell lines compared to normal cell lines. Changes in other isoforms were less pronounced. To further study the role of specific calcium transporters we have optimised conditions for the reverse transfection of MCF-7 breast cancer cells using NeoFX (Ambion). Using real time RT-PCR we have confirmed gene knockdown for specific isoforms and have studied the time course of knockdown over 96 hours. We see approximately 68 % inhibition at 24 hours increasing to 84 % 96 hours post-reverse transfection. Our studies suggest that the expression of specific calcium transporter isoforms can be significantly altered in cancer cell lines and that isoform specific inhibition of calcium transporters is possible using reverse transfection of siRNA

Further evidence of linkage at 7p22 with familial hyperaldosteronism type II and exclusion of genetic defects in the RBAK coding regions

Once thought rare, primary aldosteronism (PAL) is now reported to be responsible for 5–10% of hypertension. Unlike familial hyperaldosteronism type I (FH-I), FH-II is not glucocorticoidremediable and not associated with the hybrid CYP11B1/CYP11B2 gene mutation. At least five times more common than FH-I, FH-II is clinically indistinguishable from apparently sporadic PAL, suggesting an even higher incidence. Studies performed in collaboration with C Stratakis (NIH, Bethesda) on our largest Australian family (eight affected members) demonstrated linkage at chromosome 7p22. Linkage at this region was also found in a South American family (DNA provided by MI New, Mount Sinai School of Medicine, New York) and in a second Australian family. The combined multipoint LOD score for these 3 families is 4.61 (q = 0) with markers D7S462 and D7S517, providing strong support for this locus harbouring mutations responsible for FH-II. A newly identified recombination event in our largest Australian family has narrowed the region of linkage by 1.8 Mb, permitting exclusion of approximately half the genes residing in the originally reported 5 Mb linked locus. Candidate genes that are involved in cell cycle control are of interest as adrenal hyperplasia and adrenal adenomas are common in FH-II patients. A novel candidate gene in this linked region produces the retinoblastoma-associated Kruppel-associated box protein (RBaK) which interacts with the retinoblastoma gene product to repress the expression of genes activated by members of the E2F family of transcription factors.