Transcriptomics in the wild: Hibernation physiology in free‐ranging dwarf lemurs

Faherty, Sheena L.; Villanueva‐Cañas, José Luis; Blanco, Marina B.; Albà, Mar; Yoder, Anne D.

doi:10.1111/mec.14483

Cited by 43 publications

(44 citation statements)

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“…), [108][109][110][111][112] American black bears (Ursus americanus), 113,114 little brown bats (Myotis lucifugus) 115 and recently in two different species of dwarf lemurs (Cheirogaleus medius and Cheirogaleus crossleyi). 21,116 These studies reveal specific genes that might play a key role in the hibernation phenotype and similar pathways are upregulated in predictable ways in all hibernating species studied to date. Of import are genes involved in lipid and carbohydrate metabolism, blood coagulation, and circadian rhythms.…”

Section: Box 3 Genetic Basis Of Hibernationmentioning

confidence: 91%

“…19,20 Differences in the physiological tuning of hibernation and metabolic regulation may, in fact, signal variation in underlying mechanisms brought about by unique evolutionary histories, though it is increasingly thought that the capacity for heterothermy is ancestral in mammals, having been suppressed in lineages and species that are apparently nonheterothermic. 21…”

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confidence: 99%

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Tropical heterothermy is “cool”: The expression of daily torpor and hibernation in primates

Blanco

Dausmann

Faherty

et al. 2018

Evolutionary Anthropology

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103

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Living nonhuman primates generally inhabit tropical forests, and torpor is regarded as a strategy employed by cold-adapted organisms. Yet, some primates employ daily torpor or hibernation (heterothermy) under obligatory, temporary, or emergency circumstances. Though heterothermy is present in most mammalian lineages, there are only three extant heterothermic primate lineages: bushbabies from Africa, lorises from Asia, and dwarf and mouse lemurs from Madagascar. Here, we analyze their phenotypes in the general context of tropical mammalian heterothermy. We focus on Malagasy lemurs as they have been the most intensively studied and also show an unmatched range of flexibility in their heterothermic responses. We discuss the evidence for whether heterothermy should be considered an ancestral or derived condition in primates. This consideration is particularly intriguing given that an understanding of the underlying mechanisms for hibernation in lemurs opens the possibility for insight into genotype-phenotype interactions, including those with biomedical relevance for humans.

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Section: Box 3 Genetic Basis Of Hibernationmentioning

confidence: 91%

mentioning

confidence: 99%

Tropical heterothermy is “cool”: The expression of daily torpor and hibernation in primates

Blanco

Dausmann

Faherty

et al. 2018

Evolutionary Anthropology

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103

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“…Originally thought to be restricted to cold-adapted mammals, hibernation has also been observed in primates (dwarf lemurs; Blanco, Dausmann, Ranaivoarisoa, & Yoder, 2013;Dausmann, Glos, Ganzhorn, & Heldmaier, 2004), implying that perhaps we humans have the ability to hibernate, which has beneficial applications in medicine and longterm space exploration (Chouker, Bereiter-Hahn, Singer, & Heldmaier, 2019). Central metabolic roles for pyruvate dehydrogenase kinase isoenzyme 4 (Faherty, Villanueva-Canas, Blanco, Alba, & Yoder, 2018) and hibernation-specific protein (HP20 complex; Kondo et al, 2006) have been suggested as ancestral 'hibernation signatures' that contribute to mammalian brain signalling and neuroprotection.…”

Section: Building a Better Brain; Lessons From Naturementioning

confidence: 99%

Oxygen and brain death; back from the brink

Bailey

2019

Experimental Physiology

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New Findings What is the topic of this review?To explore the unique evolutionary origins of the human brain and critically appraise its energy budget, including limits of oxygen and glucose deprivation during anoxia and ischaemia. What advances does it highlight?The brain appears to be more resilient to substrate depletion than traditionally thought, highlighting greater resilience and an underappreciated capacity for functional recovery. Abstract The human brain has evolved into an unusually large, complex and metabolically expensive organ that relies entirely on a continuous supply of O2 and glucose. It has traditionally been assumed that its exorbitant energy budget, combined with little to no energy reserves, renders it especially vulnerable to anoxia and ischaemia, with substrate depletion and progression towards cell death largely irreversible and rapid. However, new and exciting evidence suggests that neurons can survive for longer than previously thought, highlighting an unexpected resilience and underappreciated capacity for functional recovery that has changed the way we think about brain cell death. Nature has the potential to unlock some of the mysteries underlying ischaemic survival, with select vertebrates having solved the problem of anoxia–hypoxia tolerance over millions of years of evolution. Better understanding of their survival strategies, including remarkable adaptations in brain physiology and redox homeostasis, might help to identify new therapeutic targets for human diseases characterized by O2 deprivation, ischaemia–reperfusion injury and ageing.

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“…sib). NPY2R is a gene that was identified to be upregulated in the fat vs torpor phases of Faherty et al (2018); NPY2R was identified in an introgressed region between C. med/C. sib.…”

Section: Functional Implications Of Ancient Admixture For the Hibernamentioning

confidence: 99%

Conservation genomic analysis reveals ancient introgression and declining levels of genetic diversity in Madagascar’s hibernating dwarf lemurs

Williams

Blanco

Poelstra

et al. 2019

Preprint

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Madagascar's biodiversity is notoriously threatened by deforestation and climate change. Many of these organisms are rare, cryptic, and severely threatened, making population-level sampling unrealistic. Such is the case with Madagascar's dwarf lemurs (genus Cheirogaleus), the only obligate hibernating primate. We here apply comparative genomic approaches to generate the first genome-wide estimates of genetic diversity within dwarf lemurs. We generate a reference genome for the fat-tailed dwarf lemur, Cheirogaleus medius, and use this resource to facilitate analyses of high-coverage (~30x) genome sequences for wild-caught individuals representing species: C. sp. cf. medius, C. major, C. crossleyi and C. sibreei. This study represents the largest contribution to date of novel genomic resources for Madagascar's lemurs. We find concordant phylogenetic relationships among the four lineages of Cheirogaleus across most of the genome, and yet detect a number of discordant genomic regions consistent with ancient admixture. We hypothesized that these regions could have resulted from adaptive introgression related to hibernation, indeed finding that genes associated with hibernation are present, though most significantly, that gene ontology categories relating to transcription are over-represented. We estimate levels of heterozygosity and find particularly low levels in an individual sampled from an isolated population of C. medius that we refer to as C. sp. cf. medius. Results are consistent with a recent decline in effective population size, which is evident across species. Our study highlights the power of comparative genomic analysis for identifying species and populations of conservation concern, as well as for illuminating possible mechanisms of adaptive phenotypic evolution.

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Transcriptomics in the wild: Hibernation physiology in free‐ranging dwarf lemurs

Cited by 43 publications

References 83 publications

Tropical heterothermy is “cool”: The expression of daily torpor and hibernation in primates

Tropical heterothermy is “cool”: The expression of daily torpor and hibernation in primates

Oxygen and brain death; back from the brink

Conservation genomic analysis reveals ancient introgression and declining levels of genetic diversity in Madagascar’s hibernating dwarf lemurs

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