Abstract
We tested the hypothesis that mouse ATC1 and ATC7 cells, the first adrenocortical cell lines to exhibit a complete zona fasciculata (ZF) cell phenotype, respond to dynamic ACTH stimulation in a similar manner as the adrenal gland in vivo. Exploiting our previous in vivo observations that gene transcription within the steroidogenic pathway is dynamically regulated in response to a pulse of ACTH, we exposed ATC1 and ATC7 cells to various patterns of ACTH, including pulsatile and constant, and measured the transcriptional activation of this pathway. We show that pulses of ACTH administered to ATC7 cells can reliably stimulate a pulsatile pattern of transcriptional activity that is comparable to that observed in adrenal ZF cells in vivo. Hourly pulses of ACTH stimulate dynamic increases in CREB phosphorylation (pCREB) and transcription of genes involved in critical steps of steroidogenesis including signal transduction (e.g., MRAP), cholesterol delivery (e.g., StAR), and steroid biosynthesis (e.g., CYP11A1), as well as those relating to transcriptional regulation of steroidogenic factors (e.g., SF-1 and Nur-77). In contrast, constant ACTH stimulation results in a prolonged and exaggerated pCREB and steroidogenic gene transcriptional response. We also show that when a large dose of ACTH (100 nM) is applied after these treatment regimens, a significant increase in steroidogenic transcriptional responsiveness is achieved only in cells that have been exposed to pulsatile, rather than constant, ACTH. Our data support our in vivo observations that pulsatile ACTH is important for the optimal transcriptional responsiveness of the adrenal. Importantly, our data suggest that ATC7 cells respond to dynamic ACTH stimulation.
Highlights
We tested the hypothesis that mouse ATC1 and ATC7 cells, the first adrenocortical cell lines to exhibit a complete zona fasciculata (ZF) cell phenotype, respond to dynamic ACTH stimulation in a similar manner as the adrenal gland in vivo
Multiple pulses of ACTH induce pulsatile CREB phosphorylation (pCREB) and steroidogenic gene transcription Because adrenal ZF cells are exposed to trains of ultradian pulses of ACTH throughout the day in both humans and rodents [20, 25], we studied the effects of multiple hourly pulses of ACTH on pCREB and steroidogenic transcriptional output
The overriding aim of this investigation was to determine whether ATC1 and ATC7 cells represent a valid and reliable model to study ACTH-mediated steroidogenic transcriptional dynamics in vitro
Summary
We tested the hypothesis that mouse ATC1 and ATC7 cells, the first adrenocortical cell lines to exhibit a complete zona fasciculata (ZF) cell phenotype, respond to dynamic ACTH stimulation in a similar manner as the adrenal gland in vivo. We have shown that in rats with suppressedendogenous HPA axis activity, hourly exogenous pulses of ACTH activate a pulsatile pattern of steroidogenic-related gene transcription and endogenous corticosterone secretion, whereas a constant ACTH infusion (at the same hourly dosage) does not stimulate a change in steroidogenic-related gene expression or corticosterone release [19, 27]. This finding suggests that the pulsatile pattern of ACTH release is critical for optimal activation of the steroidogenic pathways and corticosterone synthesis and release in the adrenal gland. The responses of these H295R strains to secretagogues, and their functional aspects, vary significantly depending on the growth medium used [32]
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