👤 C D Cottone

The ovarian hormones estrogen and progesterone (EP) are implicated in breast cancer causation. A specific consequence of progesterone exposure is the expansion of the mammary stem cell (MSC) and luminal progenitor (LP) compartments. We hypothesized that this effect, and its molecular facilitators, could be abrogated by progesterone receptor (PR) antagonists administered in a mouse model. Ovariectomized FVB mice were randomized to 14 days of treatment: sham, EP, EP + telapristone (EP + TPA), EP + mifepristone (EP + MFP). Mice were then sacrificed, mammary glands harvested, and mammary epithelial cell lineages separated by flow cytometry using cell surface markers. RNA from each lineage was sequenced and differential gene expression was analyzed using DESeq. Quantitative PCR was performed to confirm the candidate genes discovered in RNA seq. ANOVA with Tukey post hoc analysis was performed to compare relative expression. Alternative splicing events were examined using the rMATs multivariate analysis tool. Significant increases in the MSC and luminal mature (LM) cell fractions were observed following EP treatment compared to control (p < 0.01 and p < 0.05, respectively), whereas the LP fraction was significantly reduced (p < 0.05). These hormone-induced effects were reversed upon exposure to TPA and MFP (p < 0.01 for both). Gene Ontology analysis of RNA-sequencing data showed EP-induced enrichment of several pathways, with the largest effect on Wnt signaling in MSC, significantly repressed by PR inhibitors. In LP cells, significant induction of Wnt4 and Rankl, and Wnt pathway intermediates Lrp2 and Axin2 (confirmed by qRTPCR) were reversed by TPA and MFP (p < 0.0001). Downstream signaling intermediates of these pathways (Lrp5, Mmp7) showed similar effects. Expression of markers of epithelial-mesenchymal transition (Cdh1, Cdh3) and the induction of EMT regulators (Zeb1, Zeb2, Gli3, Snai1, and Ptch2) were significantly responsive to progesterone. EP treatment was associated with large-scale alternative splicing events, with an enrichment of motifs associated with Srsf, Esrp, and Rbfox families. Exon skipping was observed in Cdh1, Enah, and Brd4. PR inhibition reverses known tumorigenic pathways in the mammary gland and suppresses a previously unknown effect of progesterone on RNA splicing events. In total, our results strengthen the case for reconsideration of PR inhibitors for breast cancer prevention. Show less

The neuronal ceroid lipofuscinoses (NCLs) are the most common neurodegenerative disorders of childhood. The CLN1, CLN2 and CLN3 genes are associated to the infantile, late infantile and juvenile forms of NCL, respectively. We have subcloned the cDNAs encoding CLN1, CLN2 and BTN1, the yeast homologue of human CLN3, into plasmid vectors to evaluate whether these proteins interact with other proteins co-expressed from either a cDNA library derived from human cerebellum or from yeast, respectively, using the two-hybrid system. We concluded that CLN1 most likely does not interact with any other proteins in vivo. Furthermore, it is unlikely that CLN2 interacts with other proteins in vivo, although this study utilized a cDNA encoding the CLN2 precursor and it is possible that interacting partners may be excluded by the nature of this protein structure. Finally, we conclude that proteins that interact with Btn1p and therefore CLN3 cannot be identified using the whole proteins in a two-hybrid system, due to the hydrophobic nature of this protein. By understanding the topology of CLN3, specific regions of CLN3 need to be tested by two-hybrid to identify any interacting partners. Show less