The Expression Regulatory Network in the Lung Tissue of Tibetan Pigs Provides Insight Into Hypoxia-Sensitive Pathways in High-Altitude Hypoxia

To adapt to a low-oxygen environment, Tibetan pigs have developed a series of unique characteristics and can transport oxygen more effectively; however, the regulation of the associated processes in high-altitude animals remains elusive. We performed mRNA-seq and miRNA-seq, and we constructed coexpression regulatory networks of the lung tissues of Tibetan and Landrace pigs. HBB, AGT, COL1A2, and EPHX1 were identified as major regulators of hypoxia-induced genes that regulate blood pressure and circulation, and they were enriched in pathways related to signal transduction and angiogenesis, such as HIF-1, PI3K-Akt, mTOR, and AMPK. HBB may promote the combination of hemoglobin and oxygen as well as angiogenesis for high-altitude adaptation in Tibetan pigs. The expression of MMP2 showed a similar tendency of alveolar septum thickness among the four groups. These results indicated that MMP2 activity may lead to widening of the alveolar wall and septum, alveolar structure damage, and collapse of alveolar space with remarkable fibrosis. These findings provide a perspective on hypoxia-adaptive genes in the lungs in addition to insights into potential candidate genes in Tibetan pigs for further research in the field of high-altitude adaptation.

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Peer Review #1 of "Comparative analysis of the microRNA transcriptome between yak and cattle provides insight into high-altitude adaptation (v0.1)"

10.7287/peerj.3959v0.1/reviews/1 ◽

2017 ◽

Keyword(s):

Comparative Analysis ◽

High Altitude ◽

Peer Review ◽

High Altitude Adaptation ◽

Altitude Adaptation ◽

Insight Into

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Peer Review #3 of "Comparative analysis of the microRNA transcriptome between yak and cattle provides insight into high-altitude adaptation (v0.1)"

10.7287/peerj.3959v0.1/reviews/3 ◽

2017 ◽

Keyword(s):

Comparative Analysis ◽

High Altitude ◽

Peer Review ◽

High Altitude Adaptation ◽

Altitude Adaptation ◽

Insight Into

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Integrated analysis of mRNA and miRNA expression profiles in Ptychobarbus dipogon and Schizothorax oconnori , insight into genetic mechanisms of high altitude adaptation in the schizothoracine fishes

Gene Reports ◽

10.1016/j.genrep.2017.09.005 ◽

2017 ◽

Vol 9 ◽

pp. 74-80 ◽

Cited By ~ 2

Author(s):

Xiu Feng ◽

Dekui He ◽

Ge Shan ◽

Juan Tao ◽

Yifeng Chen

Keyword(s):

High Altitude ◽

Mirna Expression ◽

Expression Profiles ◽

Integrated Analysis ◽

High Altitude Adaptation ◽

Mirna Expression Profiles ◽

Genetic Mechanisms ◽

Altitude Adaptation ◽

Insight Into

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High altitude adaptation mitigates anemia risk associated with diabetes among the Mosuo of Southwest China

10.1101/406579 ◽

2018 ◽

Cited By ~ 1

Author(s):

M Su ◽

K Wander ◽

MK Shenk ◽

T Blumenfield ◽

H Li ◽

...

Keyword(s):

Tibetan Plateau ◽

High Altitude ◽

Market Integration ◽

Hypoxia Inducible Factor ◽

Human Populations ◽

The Tibetan Plateau ◽

Low Oxygen ◽

High Altitude Adaptation ◽

Altitude Adaptation ◽

Hb Concentration

AbstractHuman populations native to high altitude regions (≥2500 m) exhibit numerous adaptations to hypoxic stress. On the Tibetan Plateau, these include modifications of the hypoxia inducible factor (HIF) pathway to essentially uncouple erythropoiesis (red blood cell production) and blood hemoglobin (Hb) concentration—which normally increase in response to low oxygen—from hypoxia. Uncoupling of erythropoiesis and hypoxia is also observed among people with diabetes due to damage to kidney tissues. This is hypothesized to result in elevated risk for anemia among diabetics, which increases risk for cardiovascular disease and death. We tested the hypothesis that the independence of erythropoiesis from HIF among high-altitude adapted populations of the Tibetan Plateau may protect against diabetes-associated anemia. We investigated this hypothesis among the Mosuo, a population living in Yunnan Province, China (at ~2800 m altitude) that is undergoing rapid market integration and lifestyle change, with concomitant increase in risk for type 2 diabetes. We found that, although diabetes (glycated hemoglobin, HbA1c ≥6.5%) is associated with anemia (females: Hb<12g/dl; males: Hb<13g/dl) among the Chinese population as a whole (N: 5,606; OR: 1.48; p: 0.008), this is not the case among the Mosuo (N: 316; OR: 1.36; p: 0.532). Both pathways uncoupling hypoxia from erythropoiesis (diabetic disease and high altitude adaptation) are incompletely understood; their intersection in protecting Mosuo with diabetes from anemia may provide insight into the mechanisms underlying each. Further, these findings point to the importance of understanding how high-altitude adaptations interact with chronic disease processes, as populations like the Mosuo experience rapid market integration.

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