Starvation resistant cavefish reveal conserved mechanisms of starvation-induced hepatic lipotoxicity

Pozo-Morales, Macarena; Cobham, Ansa E; Centola, Cielo; McKinney, Mary Cathleen; Liu, Peiduo; Perazzolo, Camille; Lefort, Anne; Libert, Frédérick; Bai, Hua; Rohner, Nicolas; Singh, Sumeet Pal

doi:10.1101/2024.01.10.574986

2024

DOI: 10.1101/2024.01.10.574986

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Starvation resistant cavefish reveal conserved mechanisms of starvation-induced hepatic lipotoxicity

Macarena Pozo-Morales,

Ansa E Cobham,

Cielo Centola

et al.

Abstract: Starvation causes the accumulation of lipid droplets in the liver, a somewhat counterintuitive phenomenon that is nevertheless conserved from flies to humans. Much like fatty liver resulting from overfeeding, hepatic lipid accumulation (steatosis) during undernourishment can lead to lipotoxicity and atrophy of the liver. Here, we found that while surface populations of Astyanax mexicanus undergo this evolutionarily conserved response to starvation, the starvation-resistant cavefish larvae of the same species d… Show more

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Cited by 3 publications

References 39 publications

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Potential role of microRNAs in regulating transcriptional profile, and sculpting development and metabolism in cavefish

Biswas,

Hassan,

Rohner

2024

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Astyanax mexicanus, a species with both surface-dwelling and multiple cave-dwelling populations, offers a unique opportunity to study repeated adaptation to dark and resource-scarce environments. While previous work has identified large-scale changes in gene expression between morphs even under identical laboratory conditions, the regulatory basis of these expression differences remains largely unexplored. In this study, we focus on microRNAs (miRNAs) as key regulators of gene expression to understand cavefish adaptation nuances. Our analysis identified 683 miRNAs, which not only surpasses the number documented in related species but also provides the first comprehensive catalog of miRNAs for this species. We identified a unique subset of differentially expressed miRNAs common to all studied cave-dwelling populations, potentially orchestrating the nuanced gene expression patterns required for survival in the challenging cave milieu. Gene Ontology analysis of the predicted miRNA targets revealed involvement in developmental and metabolic pathways that are pivotal for thriving in nutrient-limited environments, such as the regulation of neuromast migration. Moreover, our study provides evidence for miRNA influence on circadian rhythm and oxidative stress response, both essential adaptations for the cave-dwelling lifestyle. The comprehensive miRNA catalog generated will guide future investigations into the intricate world of miRNA-mediated evolution of complex traits.

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Potential role of microRNAs in regulating transcriptional profile, and sculpting development and metabolism in cavefish

Biswas,

Hassan,

Rohner

2024

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Postprandial sleep in short-sleeping Mexican cavefish

Gallman,

Rastogi,

North

et al. 2024

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Interaction between sleep and feeding behaviors are critical for adaptive fitness. Diverse species suppress sleep when food is scarce to increase the time spent foraging. Post-prandial sleep, an increase in sleep time following a feeding event, has been documented in vertebrate and invertebrate animals. While interactions between sleep and feeding appear to be highly conserved, the evolution of postprandial sleep in response to changes in food availability remains poorly understood. Multiple populations of the Mexican cavefish,Astyanax mexicanus,have independently evolved sleep loss and increased food consumption compared to surface-dwelling fish of the same species, providing the opportunity to investigate the evolution of interactions between sleep and feeding. Here, we investigate effects of feeding on sleep in larval and adult surface fish, and two parallelly evolved cave populations ofA. mexicanus.Larval surface and cave populations ofA. mexicanusincrease sleep immediately following a meal, providing the first evidence of postprandial sleep in a fish model. The amount of sleep was not correlated to meal size and occurred independently of feeding time. In contrast to larvae, postprandial sleep was not detected in adult surface or cavefish, that can survive for months without food. Together, these findings reveal that postprandial sleep is present in multiple short-sleeping populations of cavefish, suggesting sleep-feeding interactions are retained despite the evolution of sleep loss. These findings raise the possibility that postprandial sleep is critical for energy conservation and survival in larvae that are highly sensitive to food deprivation.

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3D genome organization under extreme metabolic adaptation shows variations in genome compartmentalization and looping

Biswas,

Li,

Rohner

2024

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Three-dimensional (3D) genome organization plays a crucial role in gene regulation by influencing cellular functions, such as bringing regulatory elements like enhancers into proximity with their target genes. In this study, we explore variations in 3D genome organization within different morphs of the fishAstyanax mexicanus, which includes a river-dwelling surface fish and multiple cave-dwelling morphs. The cave morphs, also known as cavefish, have adapted to the dark and nutrient-scarce cave environments, resulting in distinct metabolic reprogramming that has made them persistently hyperglycemic, resilient to starvation, and prone to fat accumulation. Focusing on metabolic evolution in cavefish, we used liver tissue to conduct genome-wide contact mapping through Hi-C experiments. Comparing the 3D genome architecture of two cave morphs - Pachón and Tinaja - with that of surface fish, we observed significant changes in genome compartmentalization and genomic loops. Some of these changes were common in both Pachón and Tinaja and were classified as cave-specific looping and compartmental switches. By integrating liver Hi-C data with RNA-seq, ATAC-seq, and histone ChIP-seq datasets, we gained deeper insight into the relationship between cave-specific 3D genome features and the transcriptional activity at associated loci. Additionally, we identified structural variations in the form of common genomic inversions in Pachón and Tinaja compared to surface fish. Therefore, this study is the first to define the 3D genome organization ofAstyanax mexicanusin livers and highlights how adaptation to extreme environments is associated with significant variations in 3D genome architecture, even within the same species.

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Starvation resistant cavefish reveal conserved mechanisms of starvation-induced hepatic lipotoxicity

Cited by 3 publications

References 39 publications

Potential role of microRNAs in regulating transcriptional profile, and sculpting development and metabolism in cavefish

Potential role of microRNAs in regulating transcriptional profile, and sculpting development and metabolism in cavefish

Postprandial sleep in short-sleeping Mexican cavefish

3D genome organization under extreme metabolic adaptation shows variations in genome compartmentalization and looping

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