Optogenetic induction of chronic glucocorticoid exposure in early‐life leads to blunted stress‐response in larval zebrafish

Nagpal, Jatin; Eachus, Helen; Lityagina, Olga; Ryu, Soojin

doi:10.1111/ejn.16301

Cited by 5 publications

(2 citation statements)

References 84 publications

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“…The fish interrenal gland, a homolog of the adrenal gland in mamals, is composed of two cell types: aminergic chromaffin cells and steroidogenic interrenal cells, the latter of which produce glucocorticoids (GCs). We established that Tg(star:bPAC-2A-tdTomato) uex300 raised under ambient light containing blue light (hitherto referred to as bPAC+) showed increased cortisol levels and expression of fkbp5 , one of the known GR signaling marker genes, 17 , 18 , 19 at larval stages 15 , 16 ( Figure 1 C). Elevated cortisol levels through larval and juvenile stages were detected in bPAC+, but not maintained until adulthood (after 3 months) allowing us to achieve a robust and persistent increase in endogenous cortisol levels during development ( Figures 1 D and 1E).…”

Section: Resultsmentioning

confidence: 96%

“…We developed a double-hit stress model using zebrafish which combines exposure to a high level of GC during development with acute adult stress exposure ( Figure 1 A). First, we used our previously reported optogenetic transgenic model Tg(star:bPAC-2A-tdTomato) uex300 where the elevation of endogenous cortisol (GC in fish) is induced by blue light which activates beggiatoa photoactivated adenylyl cyclase (bPAC), expressed specifically in steroidogenic interrenal cells 14 , 15 , 16 ( Figure 1 B). The fish interrenal gland, a homolog of the adrenal gland in mamals, is composed of two cell types: aminergic chromaffin cells and steroidogenic interrenal cells, the latter of which produce glucocorticoids (GCs).…”

Section: Resultsmentioning

confidence: 99%

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Exposure to elevated glucocorticoid during development primes altered transcriptional responses to acute stress in adulthood

Choi,

Cook,

Mungikar

et al. 2024

iScience

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Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Exposure to elevated glucocorticoid during development primes altered transcriptional responses to acute stress in adulthood

Choi,

Cook,

Mungikar

et al. 2024

iScience

Self Cite

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Cortisol dynamics and GR-dependent feedback regulation in zebrafish larvae exposed to repeated stress

Castillo-Ramírez,

Ryu,

De Marco

2024

Preprint

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Zebrafish larvae show a rapid increase in cortisol in response to acute stressors, followed by a decline. While these responses are documented, both the duration of the refractory period to repeated stressors and the role of glucocorticoid receptors (GR) in specific phases of the glucocorticoid negative feedback are still being clarified. We explored these questions using water vortices as stressors, combined with GR blockage and measurements of whole-body cortisol in zebrafish larvae subjected to single and repeated stress protocols. Cortisol levels were elevated 10 minutes after stress onset and returned to baseline within 30-40 minutes, depending on the stressor strength. In response to homotypic stress, cortisol levels rose above baseline if the second stressor occurred 60 or 120 minutes after the first, but not with a 30-minute interval. This suggests a rapid cortisol-mediated feedback loop with a refractory period of at least 30 minutes. Treatment with a GR blocker delayed the return to baseline and suppressed the refractory period, indicating GR-dependent early-phase feedback regulation. These findings are consistent with mammalian models and provide a framework for further analyses of early-life cortisol responses and feedback in zebrafish larvae, ideal for non-invasive imaging and high-throughput screening.

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Early life challenge enhances cortisol regulation in zebrafish larvae

Castillo-Ramírez,

Herget,

Ryu

et al. 2024

Preprint

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The hypothalamic-pituitary-adrenal (HPA) axis in mammals or hypothalamic-pituitary-interrenal (HPI) axis in fish is thought to function as an open system that adapts to the environment during development. We used larval zebrafish to explore how early life challenge (ELC) impacts the early stage of this process. ELC, induced by sustained involuntary swimming at 5 days post-fertilization (dpf), altered subsequent stress responsiveness. At 6 dpf, larvae exposed to ELC showed similar baseline cortisol levels but reduced cortisol reactivity to an initial stressor. Notably, they also showed increased cortisol reactivity to a second stress event within a 30-minute refractory period, when the cortisol response is usually suppressed. Whole-body qPCR revealed upregulation of genes involved in cortisol metabolism and stress modulation, includinghsd11b2,cyp11c1,star,crh,oxt,crhr1,pomca,nr3c2,nr3c1, andfkbp5. Challenged larvae also showed fewercrh-,avp-, andoxt-positive cells in the nucleus preopticus (NPO), homologous to the mammalian paraventricular nucleus, with diminished co-expression ofcrhandavp. Altogether, the results suggest that at the early stage of HPI axis adaptation, ELC optimizes cortisol regulation by preventing excess levels while ensuring adequate release during homotypic stress. Follow-up work should examine the impact of ELC on steroidogenic interrenal cell activity and the maturation of stress circuits in the NPO.Summary statementEarly life challenge in zebrafish larvae enhances cortisol regulation, preventing excess levels while ensuring adequate production during stress.

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Optogenetic induction of chronic glucocorticoid exposure in early‐life leads to blunted stress‐response in larval zebrafish

Cited by 5 publications

References 84 publications

Exposure to elevated glucocorticoid during development primes altered transcriptional responses to acute stress in adulthood

Exposure to elevated glucocorticoid during development primes altered transcriptional responses to acute stress in adulthood

Cortisol dynamics and GR-dependent feedback regulation in zebrafish larvae exposed to repeated stress

Early life challenge enhances cortisol regulation in zebrafish larvae

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