INSIGHT: Pit-1/GHF-1: a pituitary-specific transcription factor linking general signaling pathways to cell-specific gene expression

Despite the existence of differences in gene expression across numerous genes between males and females having been known for a long time, these have been mostly ignored in many studies, including drug development and its therapeutic use. In fact, the consequences of such differences over the disease mechanisms or the drug action mechanisms are completely unknown. Here we applied mechanistic mathematical models of signaling activity to reveal the ultimate functional consequences that gender-specific gene expression activities have over cell functionality and fate. Moreover, we also used the mechanistic modeling framework to simulate the drug interventions and unravel how drug action mechanisms are affected by gender-specific differential gene expression. Interestingly, some cancers have many biological processes significantly affected by these gender-specific differences (e.g., bladder or head and neck carcinomas), while others (e.g., glioblastoma or rectum cancer) are almost insensitive to them. We found that many of these gender-specific differences affect cancer-specific pathways or in physiological signaling pathways, also involved in cancer origin and development. Finally, mechanistic models have the potential to be used for finding alternative therapeutic interventions on the pathways targeted by the drug, which lead to similar results compensating the downstream consequences of gender-specific differences in gene expression.

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A Dispensable Role for Forespore-Specific Gene Expression in Engulfment of the Forespore during Sporulation ofBacillus subtilis

Journal of Bacteriology ◽

10.1128/jb.182.10.2919-2927.2000 ◽

2000 ◽

Vol 182 (10) ◽

pp. 2919-2927 ◽

Cited By ~ 39

Author(s):

Ya-Lin Sun ◽

Marc D. Sharp ◽

Kit Pogliano

Keyword(s):

Gene Expression ◽

Transcription Factor ◽

Sigma Factor ◽

Mother Cell ◽

Spore Production ◽

Specific Gene ◽

Ofbacillus Subtilis ◽

Formation Pathway ◽

Specific Gene Expression

ABSTRACT During the stage of engulfment in the Bacillus subtilisspore formation pathway, the larger mother cell engulfs the smaller forespore. We have tested the role of forespore-specific gene expression in engulfment using two separate approaches. First, using an assay that unambiguously detects sporangia that have completed engulfment, we found that a mutant lacking the only forespore-expressed engulfment protein identified thus far, SpoIIQ, is able to efficiently complete engulfment under certain sporulation conditions. However, we have found that the mutant is defective, under all conditions, in the expression of the late-forespore-specific transcription factor ςG; thus, SpoIIQ is essential for spore production. Second, to determine if engulfment could proceed in the absence of forespore-specific gene expression, we made use of a strain in which activation of the mother cell-specific sigma factor ςE was uncoupled from forespore-specific gene expression. Remarkably, engulfment occurred in the complete absence of ςF-directed gene expression under the same conditions permissive for engulfment in the absence of SpoIIQ. Our results demonstrate that forespore-specific gene expression is not essential for engulfment, suggesting that the machinery used to move the membranes around the forespore is within the mother cell.

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