Genome-Wide DNA Methylation Changes Associated With High-Altitude Acclimatization During an Everest Base Camp Trek

Childebayeva, Ainash; Harman, Taylor; Weinstein, Julien; Day, Trevor A.; Brutsaert, Tom D.; Bigham, Abigail W.

doi:10.3389/fphys.2021.660906

Cited by 7 publications

(7 citation statements)

References 72 publications

(91 reference statements)

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“…The authors also identified associations between DNA methylation and the altitude adaptive phenotype of fraction of exhaled nitric oxide ( Childebayeva et al, 2021a ). Surprisingly, even short-term hypoxia, such as that experienced by Europeans ascending Everest, elicited distinct epigenetic changes at key HIF loci, including EPAS1 ( Childebayeva et al, 2019a ), along with other genes in HIF and RAS pathways ( Childebayeva et al, 2021b ). These findings speak to plasticity not just in development, but potentially throughout one’s lifetime, suggesting epigenetic factors may play a role in acclimitization to high altitude.…”

Section: Time Domain 3: Physiological and Epigenetic Changes In Respo...mentioning

confidence: 99%

Time Domains of Hypoxia Responses and -Omics Insights

Non

Heinrich

et al. 2022

Front. Physiol.

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The ability to respond rapidly to changes in oxygen tension is critical for many forms of life. Challenges to oxygen homeostasis, specifically in the contexts of evolutionary biology and biomedicine, provide important insights into mechanisms of hypoxia adaptation and tolerance. Here we synthesize findings across varying time domains of hypoxia in terms of oxygen delivery, ranging from early animal to modern human evolution and examine the potential impacts of environmental and clinical challenges through emerging multi-omics approaches. We discuss how diverse animal species have adapted to hypoxic environments, how humans vary in their responses to hypoxia (i.e., in the context of high-altitude exposure, cardiopulmonary disease, and sleep apnea), and how findings from each of these fields inform the other and lead to promising new directions in basic and clinical hypoxia research.

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Section: Time Domain 3: Physiological and Epigenetic Changes In Respo...mentioning

confidence: 99%

Time Domains of Hypoxia Responses and -Omics Insights

Non

Heinrich

et al. 2022

Front. Physiol.

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“…Molecular mechanisms of HH like hypoxia-inducible factor signal cascade are well investigated (Semenza, 2006;Semenza, 2009). Hypoxia-induced inflammation can induce immune response resulting in a variety of pathologies in the context of chronic hypoxia (Walmsley et al, 2014;Krzywinska and Stockmann, Childebayeva et al, 2021). AMS and its possible deterioration including HAPE and/or HACE is mainly caused by increased capillary pressure, i.e., a non-inflammatory phenomenon (Bärtsch et al, 2003;Bärtsch et al, 2005;Bärtsch and Saltin, 2008).…”

Section: Discussionmentioning

confidence: 99%

Serum vascular endothelial growth factor is a potential biomarker for acute mountain sickness

et al. 2023

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Background: Acute mountain sickness (AMS) is the most common disease caused by hypobaric hypoxia (HH) in high-altitude (HA) associated with high mortality when progressing to high-altitude pulmonary edema (HAPE) and/or high-altitude cerebral edema (HACE). There is evidence for a role of pro- and anti-inflammatory cytokines in development of AMS, but biological pathways and molecular mechanisms underlying AMS remain elusive. We aimed to measure changes in blood cytokine levels and their possible association with the development of AMS.Method: 15 healthy mountaineers were included into this prospective clinical trial. All participants underwent baseline normoxic testing with venous EDTA blood sampling at the Bangor University in United Kingdom (69 m). The participants started from Beni at an altitude of 869 m and trekked same routes in four groups the Dhaulagiri circuit in the Nepali Himalaya. Trekking a 14-day route, the mountaineers reached the final HA of 5,050 m at the Hidden Valley Base Camp (HVBC). Venous EDTA blood sampling was performed after active ascent to HA the following morning after arrival at 5,050 m (HVBC). A panel of 21 cytokines, chemokines and growth factors were assessed using Luminex system (IL-1β, IL-2, IL-4, IL-6, IL-8, IL-10, IL-12p40, IL-1ra, sIL-2Rα, IFN-γ, TNF-α, MCP-1, MIP-1α, MIP-1β, IP-10, G-CSF, GM-CSF, EGF, FGF-2, VEGF, and TGF-β1).Results: There was a significant main effect for the gradual ascent from sea-level (SL) to HA on nearly all cytokines. Serum levels for TNF-α, sIL-2Rα, G-CSF, VEGF, EGF, TGF-β1, IL-8, MCP-1, MIP-1β, and IP-10 were significantly increased at HA compared to SL, whereas levels for IFN-γ and MIP-1α were significantly decreased. Serum VEGF was higher in AMS susceptible versus AMS resistant subjects (p < 0.027, main effect of AMS) and increased after ascent to HA in both AMS groups (p < 0.011, main effect of HA). Serum VEGF increased more from SL values in the AMS susceptible group than in the AMS resistant group (p < 0.049, interaction effect).Conclusion: Cytokine concentrations are significantly altered in HA. Within short interval after ascent, cytokine concentrations in HH normalize to values at SL. VEGF is significantly increased in mountaineers suffering from AMS, indicating its potential role as a biomarker for AMS.

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“…Indeed, we identified a total of 10 out of 143 and 104 out of ~1500 key genes [ 7 , 15 ] under positive selection in the Asymblepharus transcriptome. Interestingly, several of the 10 genes ( Table 4 ) have been reported to be under positive selection or significantly enriched or differentially methylated for pathways consistent with physiological compensation for limited oxygen in high elevation dwellers, e.g., IL1RAP [ 68 ] (human), MIA3 [ 69 ] (pika), and MICU1 [ 70 ] (Ladakhi cow). Several genes we identified to be under positive selection have GO terms that suggest their involvement in, e.g., energy metabolism and DNA repair.…”

Section: Discussionmentioning

confidence: 99%

De novo Assembly, Annotation, and Analysis of Transcriptome Data of the Ladakh Ground Skink Provide Genetic Information on High-Altitude Adaptation

Hofmann

Baniya

Stöck

et al. 2021

Genes

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The Himalayan Arc is recognized as a global biodiversity hotspot. Among its numerous cryptic and undiscovered organisms, this composite high-mountain ecosystem harbors many taxa with adaptations to life in high elevations. However, evolutionary patterns and genomic features have been relatively rarely studied in Himalayan vertebrates. Here, we provide the first well-annotated transcriptome of a Greater Himalayan reptile species, the Ladakh Ground skink Asymblepharus ladacensis (Squamata: Scincidae). Based on tissues from the brain, an embryonic disc, and pooled organ material, using pair-end Illumina NextSeq 500 RNAseq, we assembled ~77,000 transcripts, which were annotated using seven functional databases. We tested ~1600 genes, known to be under positive selection in anurans and reptiles adapted to high elevations, and potentially detected positive selection for 114 of these genes in Asymblepharus. Even though the strength of these results is limited due to the single-animal approach, our transcriptome resource may be valuable data for further studies on squamate reptile evolution in the Himalayas as a hotspot of biodiversity.

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Genome-Wide DNA Methylation Changes Associated With High-Altitude Acclimatization During an Everest Base Camp Trek

Cited by 7 publications

References 72 publications

Time Domains of Hypoxia Responses and -Omics Insights

Time Domains of Hypoxia Responses and -Omics Insights

Serum vascular endothelial growth factor is a potential biomarker for acute mountain sickness

De novo Assembly, Annotation, and Analysis of Transcriptome Data of the Ladakh Ground Skink Provide Genetic Information on High-Altitude Adaptation

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