Your search keyword '"Kong Qp"' showing total 121 results

1. Rewiring of uric acid metabolism in the intestine promotes high-altitude hypoxia adaptation in humans.

Author

Su Q, Li YC, Zhuang DH, Liu XY, Gao H, Li D, Chen Y, Ge MX, Han YM, Gao ZL, Yin FQ, Zhao L, Zhang YX, Yang LQ, Zhao Q, Luo YJ, Zhang Z, and Kong QP

Abstract

Adaptation to high-altitude hypoxia is characterized by systemic and organ-specific metabolic changes. This study investigates whether intestinal metabolic rewiring is a contributing factor to hypoxia adaptation. We conducted a longitudinal analysis over 108 days, with seven timepoints, examining fecal metabolomics data from a cohort of 46 healthy male adults traveling from Chongqing (a.s.l. 243 m) to Lhasa (a.s.l. 3658 m) and back. Our findings reveal that short-term hypoxia exposure significantly alters intestinal metabolic pathways, particularly those involving purines, pyrimidines, and amino acids. A notable observation was the significantly reduced level of intestinal uric acid (UA), the end product of purine metabolism, during acclimatization (also called acclimation) and in additional two long-term exposed cohorts (Han Chinese and Tibetans) residing in Shigatse, Xizang (a.s.l. 4700 m), suggesting that low intestinal UA levels facilitate adaptation to high-altitude hypoxia. Integrative analyses with gut metagenomic data showed consistent trends in intestinal UA levels and the abundance of key UA-degrading bacteria, predominantly from the Lachnospiraceae family. The sustained high abundance of these bacteria in the long-term resident cohorts underscores their essential role in maintaining low intestinal UA levels. Collectively, these findings suggest that the rewiring of intestinal UA metabolism, potentially orchestrated by gut bacteria, is crucial for enhancing human resilience and adaptability in extreme environments., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024

2. Gut microbiota contributes to high-altitude hypoxia acclimatization of human populations.

Author

Su Q, Zhuang DH, Li YC, Chen Y, Wang XY, Ge MX, Xue TY, Zhang QY, Liu XY, Yin FQ, Han YM, Gao ZL, Zhao L, Li YX, Lv MJ, Yang LQ, Xia TR, Luo YJ, Zhang Z, and Kong QP

Subjects

Humans, Animals, Adult, Male, Mice, Female, Longitudinal Studies, Altitude Sickness microbiology, Altitude Sickness genetics, Middle Aged, Gastrointestinal Microbiome, Acclimatization, Altitude, Hypoxia genetics

Abstract

Background: The relationship between human gut microbiota and high-altitude hypoxia acclimatization remains highly controversial. This stems primarily from uncertainties regarding both the potential temporal changes in the microbiota under such conditions and the existence of any dominant or core bacteria that may assist in host acclimatization., Results: To address these issues, and to control for variables commonly present in previous studies which significantly impact the results obtained, namely genetic background, ethnicity, lifestyle, and diet, we conducted a 108-day longitudinal study on the same cohort comprising 45 healthy Han adults who traveled from lowland Chongqing, 243 masl, to high-altitude plateau Lhasa, Xizang, 3658 masl, and back. Using shotgun metagenomic profiling, we study temporal changes in gut microbiota composition at different timepoints. The results show a significant reduction in the species and functional diversity of the gut microbiota, along with a marked increase in functional redundancy. These changes are primarily driven by the overgrowth of Blautia A, a genus that is also abundant in six independent Han cohorts with long-term duration in lower hypoxia environment in Shigatse, Xizang, at 4700 masl. Further animal experiments indicate that Blautia A-fed mice exhibit enhanced intestinal health and a better acclimatization phenotype to sustained hypoxic stress., Conclusions: Our study underscores the importance of Blautia A species in the gut microbiota's rapid response to high-altitude hypoxia and its potential role in maintaining intestinal health and aiding host adaptation to extreme environments, likely via anti-inflammation and intestinal barrier protection., (© 2024. The Author(s).)

Published

2024

3. Methylation entropy landscape of Chinese long-lived individuals reveals lower epigenetic noise related to human healthy aging.

Author

Wang HT, Xiao FH, Gao ZL, Guo LY, Yang LQ, Li GH, and Kong QP

Subjects

Aged, Aged, 80 and over, Female, Humans, Male, Aging genetics, East Asian People genetics, Entropy, Longevity genetics, DNA Methylation genetics, Epigenesis, Genetic, Healthy Aging genetics

Abstract

The transition from ordered to noisy is a significant epigenetic signature of aging and age-related disease. As a paradigm of healthy human aging and longevity, long-lived individuals (LLI, >90 years old) may possess characteristic strategies in coping with the disordered epigenetic regulation. In this study, we constructed high-resolution blood epigenetic noise landscapes for this cohort by a methylation entropy (ME) method using whole genome bisulfite sequencing (WGBS). Although a universal increase in global ME occurred with chronological age in general control samples, this trend was suppressed in LLIs. Importantly, we identified 38,923 genomic regions with LLI-specific lower ME (LLI-specific lower entropy regions, for short, LLI-specific LERs). These regions were overrepresented in promoters, which likely function in transcriptional noise suppression. Genes associated with LLI-specific LERs have a considerable impact on SNP-based heritability of some aging-related disorders (e.g., asthma and stroke). Furthermore, neutrophil was identified as the primary cell type sustaining LLI-specific LERs. Our results highlight the stability of epigenetic order in promoters of genes involved with aging and age-related disorders within LLI epigenomes. This unique epigenetic feature reveals a previously unknown role of epigenetic order maintenance in specific genomic regions of LLIs, which helps open a new avenue on the epigenetic regulation mechanism in human healthy aging and longevity., (© 2024 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.)

Published

2024

4. Scrutiny of genome-wide somatic mutation profiles in centenarians identifies the key genomic regions for human longevity.

Author

Wang HT, Zhao L, Yang LQ, Ge MX, Yang XL, Gao ZL, Cun YP, Xiao FH, and Kong QP

Subjects

Aged, 80 and over, Humans, Aging genetics, Mutation genetics, Genomics, Centenarians, Longevity genetics

Abstract

Somatic mutations accumulate with age and are associated closely with human health, their characterization in longevity cohorts remains largely unknown. Here, by analyzing whole genome somatic mutation profiles in 73 centenarians and 51 younger controls in China, we found that centenarian genomes are characterized by a markedly skewed distribution of somatic mutations, with many genomic regions being specifically conserved but displaying a high function potential. This, together with the observed more efficient DNA repair ability in the long-lived individuals, supports the existence of key genomic regions for human survival during aging, with their integrity being of essential to human longevity., (© 2023 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.)

Published

2024

5. The Aging Biomarker Consortium represents a new era for aging research in China.

Author

Ren J, Song M, Zhang W, Cai JP, Cao F, Cao Z, Chan P, Chen C, Chen G, Chen HZ, Chen J, Chen XC, Ci W, Ding BS, Ding Q, Gao F, Gao S, Han JJ, He QY, Huang K, Ju Z, Kong QP, Li J, Li J, Li J, Li X, Liu B, Liu F, Liu JP, Liu L, Liu Q, Liu Q, Liu X, Liu Y, Luo X, Ma S, Ma X, Mao Z, Nie J, Peng Y, Qu J, Ren R, Song W, Songyang Z, Sun L, Sun YE, Sun Y, Tian M, Tian XL, Tian Y, Wang J, Wang S, Wang S, Wang W, Wang X, Wang X, Wang YJ, Wang Y, Wong CCL, Xiang AP, Xiao Y, Xiao ZX, Xie Z, Xiong W, Xu D, Yang Z, Ye J, Yu W, Yue R, Zhang C, Zhang H, Zhang L, Zhang X, Zhang Y, Zhang YW, Zhang Z, Zhao T, Zhao Y, Zhou Z, Zhu D, Zou W, Pei G, and Liu GH

Subjects

China, Biomarkers, Geroscience

Published

2023

6. Longevity-Associated Transcription Factor ATF7 Promotes Healthspan by Suppressing Cellular Senescence and Systematic Inflammation.

Author

Huang Y, Ge MX, Li YH, Li JL, Yu Q, Xiao FH, Ao HS, Yang LQ, Li J, He Y, and Kong QP

Abstract

Aging is characterized by persistent low-grade systematic inflammation, which is largely responsible for the occurrence of various age-associated diseases. We and others have previously reported that long-lived people (such as centenarians) can delay the onset of or even escape certain major age-related diseases. Here, by screening blood transcriptome and inflammatory profiles, we found that long-lived individuals had a relatively lower inflammation level (IL6, TNFα), accompanied by up-regulation of activating transcription factor 7 (ATF7). Interestingly, ATF7 expression was gradually reduced during cellular senescence. Loss of ATF7 induced cellular senescence, while overexpression delayed senescence progress and senescence-associated secretory phenotype (SASP) secretion. We showed that the anti-senescence effects of ATF7 were achieved by inhibiting nuclear factor kappa B (NF-κB) signaling and increasing histone H3K9 dimethylation (H3K9me2). In Caenorhabditis elegans, ATF7 overexpression significantly suppressed aging biomarkers and extended lifespan. Our findings suggest that ATF7 is a longevity-promoting factor that lowers cellular senescence and inflammation in long-lived individuals.

Published

2023

7. Mitogenome evidence shows two radiation events and dispersals of matrilineal ancestry from northern coastal China to the Americas and Japan.

Author

Li YC, Gao ZL, Liu KJ, Tian JY, Yang BY, Rahman ZU, Yang LQ, Zhang SH, Li CT, Achilli A, Semino O, Torroni A, and Kong QP

Subjects

Humans, Japan, Americas, China, DNA, Mitochondrial genetics, Haplotypes genetics, Phylogeny, Genome, Mitochondrial

Abstract

Although it is widely recognized that the ancestors of Native Americans (NAs) primarily came from Siberia, the link between mitochondrial DNA (mtDNA) lineage D4h3a (typical of NAs) and D4h3b (found so far only in East China and Thailand) raises the possibility that the ancestral sources for early NAs were more variegated than hypothesized. Here, we analyze 216 contemporary (including 106 newly sequenced) D4h mitogenomes and 39 previously reported ancient D4h data. The results reveal two radiation events of D4h in northern coastal China, one during the Last Glacial Maximum and the other within the last deglaciation, which facilitated the dispersals of D4h sub-branches to different areas including the Americas and the Japanese archipelago. The coastal distributions of the NA (D4h3a) and Japanese lineages (D4h1a and D4h2), in combination with the Paleolithic archaeological similarities among Northern China, the Americas, and Japan, lend support to the coastal dispersal scenario of early NAs., Competing Interests: Declaration of interests The authors declare no competing interests. The authors from 23Mofang Biotechnology Co., Ltd, also declare no commercial or associative interests in connection with this work., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

8. Biomarkers of aging.

Author

Bao H, Cao J, Chen M, Chen M, Chen W, Chen X, Chen Y, Chen Y, Chen Y, Chen Z, Chhetri JK, Ding Y, Feng J, Guo J, Guo M, He C, Jia Y, Jiang H, Jing Y, Li D, Li J, Li J, Liang Q, Liang R, Liu F, Liu X, Liu Z, Luo OJ, Lv J, Ma J, Mao K, Nie J, Qiao X, Sun X, Tang X, Wang J, Wang Q, Wang S, Wang X, Wang Y, Wang Y, Wu R, Xia K, Xiao FH, Xu L, Xu Y, Yan H, Yang L, Yang R, Yang Y, Ying Y, Zhang L, Zhang W, Zhang W, Zhang X, Zhang Z, Zhou M, Zhou R, Zhu Q, Zhu Z, Cao F, Cao Z, Chan P, Chen C, Chen G, Chen HZ, Chen J, Ci W, Ding BS, Ding Q, Gao F, Han JJ, Huang K, Ju Z, Kong QP, Li J, Li J, Li X, Liu B, Liu F, Liu L, Liu Q, Liu Q, Liu X, Liu Y, Luo X, Ma S, Ma X, Mao Z, Nie J, Peng Y, Qu J, Ren J, Ren R, Song M, Songyang Z, Sun YE, Sun Y, Tian M, Wang S, Wang S, Wang X, Wang X, Wang YJ, Wang Y, Wong CCL, Xiang AP, Xiao Y, Xie Z, Xu D, Ye J, Yue R, Zhang C, Zhang H, Zhang L, Zhang W, Zhang Y, Zhang YW, Zhang Z, Zhao T, Zhao Y, Zhu D, Zou W, Pei G, and Liu GH

Subjects

Biomarkers metabolism, Biological Transport, Cellular Senescence

Abstract

Aging biomarkers are a combination of biological parameters to (i) assess age-related changes, (ii) track the physiological aging process, and (iii) predict the transition into a pathological status. Although a broad spectrum of aging biomarkers has been developed, their potential uses and limitations remain poorly characterized. An immediate goal of biomarkers is to help us answer the following three fundamental questions in aging research: How old are we? Why do we get old? And how can we age slower? This review aims to address this need. Here, we summarize our current knowledge of biomarkers developed for cellular, organ, and organismal levels of aging, comprising six pillars: physiological characteristics, medical imaging, histological features, cellular alterations, molecular changes, and secretory factors. To fulfill all these requisites, we propose that aging biomarkers should qualify for being specific, systemic, and clinically relevant., (© 2023. Science China Press.)

Published

2023

9. Hypermethylation in H3K9me3 regions characterizes the centenarian methylomes in healthy aging.

Author

Xiao FH, Wang HT, Chen XQ, Ge MX, Yan D, Yang XL, Yang LQ, Lin R, Guo RH, Zhang W, Tang NL, He Y, Zhou J, Cai WW, and Kong QP

Published

2023

10. Metabolic Modeling Identifies a Novel Molecular Type of Glioblastoma Associated with Good Prognosis.

Author

Shen Q, Yang H, Kong QP, Li GH, and Li L

Abstract

Glioblastoma (GBM) is one of the most aggressive forms of cancer. Although IDH1 mutation indicates a good prognosis and a potential target for treatment, most GBMs are IDH1 wild-type. Identifying additional molecular markers would help to generate personalized therapies and improve patient outcomes. Here, we used our recently developed metabolic modeling method (genome-wide precision metabolic modeling, GPMM) to investigate the metabolic profiles of GBM, aiming to identify additional novel molecular markers for this disease. We systematically analyzed the metabolic reaction profiles of 149 GBM samples lacking IDH1 mutation. Forty-eight reactions showing significant association with prognosis were identified. Further analysis indicated that the purine recycling, nucleotide interconversion, and folate metabolism pathways were the most robust modules related to prognosis. Considering the three pathways, we then identified the most significant GBM type for a better prognosis, namely N + P - . This type presented high nucleotide interconversion (N + ) and low purine recycling (P - ). N + P - -type exhibited a significantly better outcome (log-rank p = 4.7 × 10 -7 ) than that of N - P + . GBM patients with the N + P - -type had a median survival time of 19.6 months and lived 65% longer than other GBM patients. Our results highlighted a novel molecular type of GBM, which showed relatively high frequency (26%) in GBM patients lacking the IDH1 mutation, and therefore exhibits potential in GBM prognostic assessment and personalized therapy.

Published

2023

11. The landscape of aging.

Author

Cai Y, Song W, Li J, Jing Y, Liang C, Zhang L, Zhang X, Zhang W, Liu B, An Y, Li J, Tang B, Pei S, Wu X, Liu Y, Zhuang CL, Ying Y, Dou X, Chen Y, Xiao FH, Li D, Yang R, Zhao Y, Wang Y, Wang L, Li Y, Ma S, Wang S, Song X, Ren J, Zhang L, Wang J, Zhang W, Xie Z, Qu J, Wang J, Xiao Y, Tian Y, Wang G, Hu P, Ye J, Sun Y, Mao Z, Kong QP, Liu Q, Zou W, Tian XL, Xiao ZX, Liu Y, Liu JP, Song M, Han JJ, and Liu GH

Subjects

Humans, Aging genetics, Aging metabolism, Neoplasms genetics, Cardiovascular Diseases

Abstract

Aging is characterized by a progressive deterioration of physiological integrity, leading to impaired functional ability and ultimately increased susceptibility to death. It is a major risk factor for chronic human diseases, including cardiovascular disease, diabetes, neurological degeneration, and cancer. Therefore, the growing emphasis on "healthy aging" raises a series of important questions in life and social sciences. In recent years, there has been unprecedented progress in aging research, particularly the discovery that the rate of aging is at least partly controlled by evolutionarily conserved genetic pathways and biological processes. In an attempt to bring full-fledged understanding to both the aging process and age-associated diseases, we review the descriptive, conceptual, and interventive aspects of the landscape of aging composed of a number of layers at the cellular, tissue, organ, organ system, and organismal levels., (© 2022. Science China Press and Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

12. Mechanism of Thymus Rejuvenation in Elderly Macaques.

Author

Wang YY, Chang L, Zhu GH, Li GH, Kong QP, Lv LB, Wang Q, Tian C, Li Y, Zhu XQ, and Pan XH

Subjects

Animals, Macaca, Thymus Gland, Collagen, Rejuvenation, Mesenchymal Stem Cells

Abstract

Senile thymus atrophy is an important factor leading to decreased immune function. Repairing the atrophic thymus tissue structure, rebuilding immune function, and replenishing the number of exogenous stem cells may be ideal methods. In this study, bone marrow mesenchymal stem cells were intravenously infused into elderly macaques. We found that thymus volume was substantially increased, some thymus tissue regeneration was observed, the degree of thymus tissue fibrosis decreased, collagen fiber deposition decreased, cortical and medulla structures emerged gradually, the number of apoptotic cells decreased significantly, and the expression of apoptosis-related proteins decreased. For the effects of stem cell therapy on aging-related genes, we performed transcriptomic analysis of thymus tissue. The results show the expression pattern of the tissue transcriptome tended to be similar to the thymus expression pattern in young macaques compared with the elderly group, reverse aging-related proteins. Based on the results, it is suggested that stem cell therapy is an ideal method to prevent or reverse the aging of the thymus.

Published

2022

13. Multiple time-series expression trajectories imply dynamic functional changes during cellular senescence.

Author

Ge MX, Yu Q, Li GH, Yang LQ, He Y, Li J, and Kong QP

Abstract

Cellular senescence is a dynamic process driven by epigenetic and genetic changes. Although some transcriptomic signatures of senescent cells have been discovered, how these senescence-related signals change over time remains largely unclear. Here, we profiled the transcriptome dynamics of human dermal fibroblast (HDF) cells in successive stages of growth from proliferation to senescence. Based on time-series expression profile analysis, we discovered four trajectories (C1, C2, C3, C4) that are dynamically expressed as senescence progresses. While some genes were continuously up-regulated (C4) or down-regulated (C2) with aging, other genes did not change linearly with cell proliferation, but remained stable until entering the senescent state (C1, C3). Further analysis revealed that the four modes were enriched in different biological pathways, including regulation of cellular senescence. These findings provide a new perspective on understanding the dynamic regulatory mechanism of cellular senescence., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published

2022

14. ETS1 acts as a regulator of human healthy aging via decreasing ribosomal activity.

Author

Xiao FH, Yu Q, Deng ZL, Yang K, Ye Y, Ge MX, Yan D, Wang HT, Chen XQ, Yang LQ, Yang BY, Lin R, Zhang W, Yang XL, Dong L, He Y, Zhou J, Cai WW, Li J, and Kong QP

Subjects

Child, Female, Humans, Promoter Regions, Genetic, Proto-Oncogene Protein c-ets-1 genetics, Proto-Oncogene Protein c-ets-1 metabolism, Ribosomes genetics, Ribosomes metabolism, Transcription Factors metabolism, Healthy Aging

Abstract

Adaptation to reduced energy production during aging is a fundamental issue for maintaining healthspan or prolonging life span. Currently, however, the underlying mechanism in long-lived people remains poorly understood. Here, we analyzed transcriptomes of 185 long-lived individuals (LLIs) and 86 spouses of their children from two independent Chinese longevity cohorts and found that the ribosome pathway was significantly down-regulated in LLIs. We found that the down-regulation is likely controlled by ETS1 (ETS proto-oncogene 1), a transcription factor down-regulated in LLIs and positively coexpressed with most ribosomal protein genes (RPGs). Functional assays showed that ETS1 can bind to RPG promoters, while ETS1 knockdown reduces RPG expression and alleviates cellular senescence in human dermal fibroblast (HDF) and embryonic lung fibroblast (IMR-90) cells. As protein synthesis/turnover in ribosomes is an energy-intensive cellular process, the decline in ribosomal biogenesis governed by ETS1 in certain female LLIs may serve as an alternative mechanism to achieve energy-saving and healthy aging.

Published

2022

15. Specific Gain and Loss of Co-Expression Modules in Long-Lived Individuals Indicate a Role of circRNAs in Human Longevity.

Author

Ge MX, Jiang JJ, Yang LQ, Yang XL, He YH, Li GH, and Kong QP

Subjects

Aged, Base Sequence, Humans, Longevity genetics, Middle Aged, Sequence Analysis, RNA, MicroRNAs genetics, RNA, Circular genetics

Abstract

Deep RNA sequencing of 164 blood samples collected from long-lived families was performed to investigate the expression patterns of circular RNAs (circRNAs). Unlike that observed in previous studies, circRNA expression in long-lived elderly individuals (98.3 ± 3.4 year) did not exhibit an age-accumulating pattern. Based on weighted circRNA co-expression network analysis, we found that longevous elders specifically gained eight but lost seven conserved circRNA-circRNA co-expression modules (c-CCMs) compared with normal elder controls (spouses of offspring of long-lived individuals, age = 59.3 ± 5.8 year). Further analysis showed that these modules were associated with healthy aging-related pathways. These results together suggest an important role of circRNAs in regulating human lifespan extension.

Published

2022

16. System-level metabolic modeling facilitates unveiling metabolic signature in exceptional longevity.

Author

Li GH, Han F, Xiao FH, Gu KS, Shen Q, Xu W, Li WX, Wang YL, Liang B, Huang JF, Xiao W, and Kong QP

Subjects

Aged, 80 and over, Aging genetics, Aging metabolism, Humans, Metabolomics, Transcriptome genetics, Healthy Aging, Longevity genetics

Abstract

Although it is well known that metabolic control plays a crucial role in regulating the health span and life span of various organisms, little is known for the systems metabolic profile of centenarians, the paradigm of human healthy aging and longevity. Meanwhile, how to well characterize the system-level metabolic states in an organism of interest remains to be a major challenge in systems metabolism research. To address this challenge and better understand the metabolic mechanisms of healthy aging, we developed a method of genome-wide precision metabolic modeling (GPMM) which is able to quantitatively integrate transcriptome, proteome and kinetome data in predictive modeling of metabolic networks. Benchmarking analysis showed that GPMM successfully characterized metabolic reprogramming in the NCI-60 cancer cell lines; it dramatically improved the performance of the modeling with an R 2 of 0.86 between the predicted and experimental measurements over the performance of existing methods. Using this approach, we examined the metabolic networks of a Chinese centenarian cohort and identified the elevated fatty acid oxidation (FAO) as the most significant metabolic feature in these long-lived individuals. Evidence from serum metabolomics supports this observation. Given that FAO declines with normal aging and is impaired in many age-related diseases, our study suggests that the elevated FAO has potential to be a novel signature of healthy aging of humans., (© 2022 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.)

Published

2022

17. Why Senescent Cells Are Resistant to Apoptosis: An Insight for Senolytic Development.

Author

Hu L, Li H, Zi M, Li W, Liu J, Yang Y, Zhou D, Kong QP, Zhang Y, and He Y

Abstract

Cellular senescence is a process that leads to a state of irreversible cell growth arrest induced by a variety of intrinsic and extrinsic stresses. Senescent cells (SnCs) accumulate with age and have been implicated in various age-related diseases in part via expressing the senescence-associated secretory phenotype. Elimination of SnCs has the potential to delay aging, treat age-related diseases and extend healthspan. However, once cells becoming senescent, they are more resistant to apoptotic stimuli. Senolytics can selectively eliminate SnCs by targeting the SnC anti-apoptotic pathways (SCAPs). They have been developed as a novel pharmacological strategy to treat various age-related diseases. However, the heterogeneity of the SnCs indicates that SnCs depend on different proteins or pathways for their survival. Thus, a better understanding of the underlying mechanisms for apoptotic resistance of SnCs will provide new molecular targets for the development of cell-specific or broad-spectrum therapeutics to clear SnCs. In this review, we discussed the latest research progresses and challenge in senolytic development, described the significance of regulation of senescence and apoptosis in aging, and systematically summarized the SCAPs involved in the apoptotic resistance in SnCs., Competing Interests: DZ is a co-founder and a stockholder of Unity Biotechnology that develops senolytics as therapeutics for various age-related diseases. DZ and YH are inventors on several patent applications for the use of Bcl-xL and Bcl-2 inhibitors and PROTACs to clear SnCs. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Hu, Li, Zi, Li, Liu, Yang, Zhou, Kong, Zhang and He.)

Published

2022

18. A pair of long intergenic non-coding RNA LINC00887 variants act antagonistically to control Carbonic Anhydrase IX transcription upon hypoxia in tongue squamous carcinoma progression.

Author

Shen T, Xia W, Min S, Yang Z, Cheng L, Wang W, Zhan Q, Shao F, Zhang X, Wang Z, Zhang Y, Shen G, Zhang H, Wu LL, Yu GY, Kong QP, and Wang X

Subjects

Carbonic Anhydrase IX genetics, Cell Line, Tumor, Genome-Wide Association Study, Humans, Hypoxia genetics, RNA, Long Noncoding genetics, Tongue, Carcinoma, Squamous Cell genetics, Tongue Neoplasms genetics

Abstract

Background: Long noncoding RNAs (lncRNAs) are important regulators in tumor progression. However, their biological functions and underlying mechanisms in hypoxia adaptation remain largely unclear., Results: Here, we established a correlation between a Chr3q29-derived lncRNA gene and tongue squamous carcinoma (TSCC) by genome-wide analyses. Using RACE, we determined that two novel variants of this lncRNA gene are generated in TSCC, namely LINC00887_TSCC_short (887S) and LINC00887_TSCC_long (887L). RNA-sequencing in 887S or 887L loss-of-function cells identified their common downstream target as Carbonic Anhydrase IX (CA9), a gene known to be upregulated by hypoxia during tumor progression. Mechanistically, our results showed that the hypoxia-augmented 887S and constitutively expressed 887L functioned in opposite directions on tumor progression through the common target CA9. Upon normoxia, 887S and 887L interacted. Upon hypoxia, the two variants were separated. Each RNA recognized and bound to their responsive DNA cis-acting elements on CA9 promoter: 887L activated CA9's transcription through recruiting HIF1α, while 887S suppressed CA9 through DNMT1-mediated DNA methylation., Conclusions: We provided hypoxia-permitted functions of two antagonistic lncRNA variants to fine control the hypoxia adaptation through CA9., (© 2021. The Author(s).)

Published

2021

19. Complete mitogenomes document substantial genetic contribution from the Eurasian Steppe into northern Pakistani Indo-Iranian speakers.

Author

Rahman ZU, Tian JY, Gao ZL, Wang HT, Xia WX, Yang BY, Yang LQ, Li YC, and Kong QP

Subjects

Humans, Pakistan, Whole Genome Sequencing, Evolution, Molecular, Genome, Mitochondrial genetics, Human Migration

Abstract

To elucidate whether Bronze Age population dispersals from the Eurasian Steppe to South Asia contributed to the gene pool of Indo-Iranian-speaking groups, we analyzed 19,568 mitochondrial DNA (mtDNA) sequences from northern Pakistani and surrounding populations, including 213 newly generated mitochondrial genomes (mitogenomes) from Iranian and Dardic groups, both speakers from the ancient Indo-Iranian branch in northern Pakistan. Our results showed that 23% of mtDNA lineages with west Eurasian origin arose in situ in northern Pakistan since ~5000 years ago (kya), a time depth very close to the documented Indo-European dispersals into South Asia during the Bronze Age. Together with ancient mitogenomes from western Eurasia since the Neolithic, we identified five haplogroups (~8.4% of maternal gene pool) with roots in the Steppe region and subbranches arising (age ~5-2 kya old) in northern Pakistan as genetic legacies of Indo-Iranian speakers. Some of these haplogroups, such as W3a1b that have been found in the ancient samples from the late Bronze Age to the Iron Age period individuals of Swat Valley northern Pakistan, even have sub-lineages (age ~4 kya old) in the southern subcontinent, consistent with the southward spread of Indo-Iranian languages. By showing that substantial genetic components of Indo-Iranian speakers in northern Pakistan can be traced to Bronze Age in the Steppe region, our study suggests a demographic link with the spread of Indo-Iranian languages, and further highlights the corridor role of northern Pakistan in the southward dispersal of Indo-Iranian-speaking groups.

Published

2021

20. Comparative analysis of long noncoding RNAs in long-lived mammals provides insights into natural cancer-resistance.

Author

Jiang JJ and Kong QP

Subjects

Aging genetics, Animals, Evolution, Molecular, Gene Expression Regulation, Genes, Tumor Suppressor, Genetic Predisposition to Disease, Genome, Humans, Longevity genetics, Organ Specificity genetics, Disease Resistance genetics, Disease Susceptibility, Genomics methods, Mammals genetics, Neoplasms genetics, RNA, Long Noncoding genetics

Abstract

Mouse and rats are staple model organisms that have been traditionally used for oncological studies; however, their short lifespan and highly prone to cancers limit their utilizationsin understanding the mechanisms of cancer resistance. In recent years, several studies of the non-standard long-lived mammalian species like naked mole rat (NMR) have provided new insights of mechanisms in natural anti-cancer. How long-lived species genetically maintain longevity and cancer-resistance remains largely elusive. To better understand the underlying anti-cancer mechanisms in long-lived mammals, we genome widely identified long noncoding RNA (lncRNA) transcripts of two longevous mammals, bowhead whale (BW, Balaena mysticetus ) and Brandt's bat (BB, Myotis brandtii ) and featured their sequence traits, expression patterns, and their correlations with cancer-resistance. Similar with naked mole rat (NMR, Heterocephalus glaber ), the most long-lived rodent, BW and BB lncRNAs show low sequence conservation and dynamic expressions among tissues and physiological stages. By utilizing k-mers clustering, 75-136 of BW, BB and NMR lncRNAs were found in close relation (Pearson's r ≥0.9, p < 0.01) with human ageing diseases related lncRNAs (HAR-Lncs). In addition, we observed thousands of BB and BW lncRNAs strongly co-expressed ( r > 0.8 or r <-0.8, p < 0.01) with potential tumour suppressors, indicating that lncRNAs are potentially involved in anti-cancer regulation in long-lived mammals. Our study provides the basis for lncRNA researches in perspectives of evolution and anti-cancer studies. Abbreviations: BW: bowhead whale; BB: Brandt's bat; NMR: naked mole rat; LLM: long-lived mammal; HTS: human tumour-suppressors; PTS: potential tumour suppressor; ARD: ageing related diseases; HAR-Lncs: lncRNAs that related with human ageing diseases; Kmer-lncs: lncRNAs in long-lived mammal species that corelated (Pearson's r ≥0.9, p < 0.01) with the 10 HAR-Lncs by k-mers clustering; All-lncs: all the lncRNAs in long-lived mammal species; SDE-lncs: significant differentially expressed lncRNAs.

Published

2020

21. Exploring European ancestry among the Kalash population: a mitogenomic perspective.

Author

Rahman ZU, Li YC, Tian JY, and Kong QP

Subjects

Demography, Female, Humans, Pakistan, Phylogeny, DNA, Mitochondrial genetics, Genome, Mitochondrial, White People

Abstract

With a population of around 4 000 individuals, the Kalash people have been living in the Hindu-Kush mountain valleys of present-day northern Pakistan for centuries. Due to their mysterious origin and fairer European complexion, the genetic history of this ethnic group has been investigated previously using different markers. To date, however, the maternal genetic architecture has not been systematically dissected based on high-resolution complete mitochondrial genomes (mitogenomes), making their maternal genetic history, especially their genetic connection with Europeans from a matrilineal perspective, unclear. To unravel this issue, we analyzed mitogenome data of 34 Kalash samples together with 6 075 individuals from across Eurasia. Our results indicated exclusive western Eurasian origin of the Kalash people, represented by eight haplogroups. Among these haplogroups, J2b1a7a and R0a5a (accounting for ~50% of the Kalash gene pool) displayed in situ differentiations in the Kalash and could be traced to the Mediterranean region. Age estimations suggested these haplogroups arose in the Kalash population ~2.26 and 3.01 thousand years ago (kya), a time frame consistent with the invasion of Alexander III of Macedon to the region. One possible explanation for the maternal genetic contribution from Europeans to the Kalash people would be the involvement of women in foreign campaigns of ancient Greek warfare, followed by a founder effect. Our study thus sheds important light on the genetic origin of the Kalash community of Pakistan.

Published

2020

22. rs11046147 mutation in the promoter region of lactate dehydrogenase-B as a potential predictor of prognosis in triple-negative breast cancer.

Author

Liu J, Li Y, Chen XQ, Sun C, Sun XL, Yang Z, and Kong QP

Subjects

Humans, Isoenzymes genetics, Mutation, Prognosis, L-Lactate Dehydrogenase genetics, Promoter Regions, Genetic, Triple Negative Breast Neoplasms genetics

Published

2020

23. Identification of DNA N 6 -methyladenine sites by integration of sequence features.

Author

Wang HT, Xiao FH, Li GH, and Kong QP

Subjects

Adenine chemistry, Animals, Caenorhabditis elegans, Drosophila melanogaster, Epigenome, Adenine analogs & derivatives, DNA Methylation, Epigenomics methods, Sequence Analysis, DNA methods, Software

Abstract

Background: An increasing number of nucleic acid modifications have been profiled with the development of sequencing technologies. DNA N 6 -methyladenine (6mA), which is a prevalent epigenetic modification, plays important roles in a series of biological processes. So far, identification of DNA 6mA relies primarily on time-consuming and expensive experimental approaches. However, in silico methods can be implemented to conduct preliminary screening to save experimental resources and time, especially given the rapid accumulation of sequencing data., Results: In this study, we constructed a 6mA predictor, p6mA, from a series of sequence-based features, including physicochemical properties, position-specific triple-nucleotide propensity (PSTNP), and electron-ion interaction pseudopotential (EIIP). We performed maximum relevance maximum distance (MRMD) analysis to select key features and used the Extreme Gradient Boosting (XGBoost) algorithm to build our predictor. Results demonstrated that p6mA outperformed other existing predictors using different datasets., Conclusions: p6mA can predict the methylation status of DNA adenines, using only sequence files. It may be used as a tool to help the study of 6mA distribution pattern. Users can download it from https://github.com/Konglab404/p6mA.

Published

2020

24. Glycerophosphodiester phosphodiesterase 1 (GDE1) acts as a potential tumor suppressor and is a novel therapeutic target for non-mucin-producing colon adenocarcinoma.

Author

Shen Q, Lu C, Yang H, Ge MX, Xia WX, Kong QP, Li GH, and Gu YH

Abstract

Colon adenocarcinoma (COAD) represents a major public health issue due to its high incidence and mortality. As different histological subtypes of COAD are related to various survival outcomes and different therapies, finding specific targets and treatments for different subtypes is one of the major demands of individual disease therapy. Interestingly, as these different subtypes show distinct metabolic profiles, it may be possible to find specific targets related to histological typing by targeting COAD metabolism. In this study, the differential expression patterns of metabolism-related genes between COAD ( n  = 289) and adjacent normal tissue ( n  = 41) were analyzed by one-way ANOVA. We then used weighted gene co-expression network analysis (WGCNA) to further identify metabolism-related gene connections. To determine the critical genes related to COAD metabolism, we obtained 2,114 significantly differentially expressed genes (DEGs) and 12 modules. Among them, we found the hub module to be significantly associated with histological typing, including non-mucin-producing colon adenocarcinoma and mucin-producing colon adenocarcinoma. Combining survival analysis, we identified glycerophosphodiester phosphodiesterase 1 (GDE1) as the most significant gene associated with histological typing and prognosis. This gene displayed significantly lower expression in COAD compared with normal tissues and was significantly correlated with the prognosis of non-mucin-producing colon adenocarcinoma ( p  = 0.0017). Taken together, our study showed that GDE1 exhibits considerable potential as a novel therapeutic target for non-mucin-producing colon adenocarcinoma., Competing Interests: The authors declare there are no competing interests., (©2020 Shen et al.)

Published

2020

25. Neolithic millet farmers contributed to the permanent settlement of the Tibetan Plateau by adopting barley agriculture.

Author

Li YC, Tian JY, Liu FW, Yang BY, Gu KS, Rahman ZU, Yang LQ, Chen FH, Dong GH, and Kong QP

Abstract

The permanent human settlement of the Tibetan Plateau (TP) has been suggested to have been facilitated by the introduction of barley agriculture ∼3.6 kilo-years ago (ka). However, how barley agriculture spread onto the TP remains unknown. Given that the lower altitudes in the northeastern TP were occupied by millet cultivators from 5.2 ka, who also adopted barley farming ∼4 ka, it is highly possible that it was millet farmers who brought barley agriculture onto the TP ∼3.6 ka. To test this hypothesis, we analyzed mitochondrial DNA (mtDNA) from 8277 Tibetans and 58 514 individuals from surrounding populations, including 682 newly sequenced whole mitogenomes. Multiple lines of evidence, together with radiocarbon dating of cereal remains at different elevations, supports the scenario that two haplogroups (M9a1a1c1b1a and A11a1a), which are common in contemporary Tibetans (20.9%) and were probably even more common (40-50%) in early Tibetans prior to historical immigrations to the TP, represent the genetic legacy of the Neolithic millet farmers. Both haplogroups originated in northern China between 10.0-6.0 ka and differentiated in the ancestors of modern Tibetans ∼5.2-4.0 ka, matching the dispersal history of millet farming. By showing that substantial genetic components in contemporary Tibetans can trace their ancestry back to the Neolithic millet farmers, our study reveals that millet farmers adopted and brought barley agriculture to the TP ∼3.6-3.3 ka, and made an important contribution to the Tibetan gene pool., (© The Author(s) 2019. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd.)

Published

2019

26. The Relationship Between Math Anxiety and Math Performance: A Meta-Analytic Investigation.

Author

Zhang J, Zhao N, and Kong QP

Abstract

Math anxiety (MA) has been suggested to decrease the math performance of students. However, it remains unclear what factors moderate this relationship. The aim of this research was to explore the link between MA and math performance. Studies that explored the math anxiety-performance link, conducted from 2000 to 2019 (84 samples, N = 8680), were identified and statistically integrated with a meta-analysis method. The results indicated a robust negative math anxiety-performance link. Furthermore, regarding the analysis of moderator variables, this negative link was stronger in the studies that involved Asian students, but this link was the weakest in the studies that involved European students. Moreover, this negative link was stronger in the studies within a senior high school group, whereas it was the weakest in the studies within an elementary group. Finally, this negative link was strongest among studies that used a custom test and studies that assessed problem-solving skills. Potential explanations and implications for research and practice are discussed.

Published

2019

27. River Valleys Shaped the Maternal Genetic Landscape of Han Chinese.

Author

Li YC, Ye WJ, Jiang CG, Zeng Z, Tian JY, Yang LQ, Liu KJ, and Kong QP

Subjects

Agriculture, China, Demography, Humans, Phylogeography, Genome, Human, Genome, Mitochondrial, Rivers

Abstract

A general south-north genetic divergence has been observed among Han Chinese in previous studies. However, these studies, especially those on mitochondrial DNA (mtDNA), are based either on partial mtDNA sequences or on limited samples. Given that Han Chinese comprise the world's largest population and reside around the whole China, whether the north-south divergence can be observed after all regional populations are considered remains unknown. Moreover, factors involved in shaping the genetic landscape of Han Chinese need further investigation. In this study, we dissected the matrilineal landscape of Han Chinese by studying 4,004 mtDNA haplogroup-defining variants in 21,668 Han samples from virtually all provinces in China. Our results confirmed the genetic divergence between southern and northern Han populations. However, we found a significant genetic divergence among populations from the three main river systems, that is, the Yangtze, the Yellow, and the Zhujiang (Pearl) rivers, which largely attributed to the prevalent distribution of haplogroups D4, B4, and M7 in these river valleys. Further analyses based on 4,986 mitogenomes, including 218 newly generated sequences, indicated that this divergence was already established during the early Holocene and may have resulted from population expansion facilitated by ancient agricultures along these rivers. These results imply that the maternal gene pools of the contemporary Han populations have retained the genetic imprint of early Neolithic farmers from different river basins, or that river valleys represented relative migration barriers that facilitated genetic differentiation, thus highlighting the importance of the three ancient agricultures in shaping the genetic landscape of the Han Chinese., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

28. TICRR Contributes to Tumorigenesis Through Accelerating DNA Replication in Cancers.

Author

Yu Q, Pu SY, Wu H, Chen XQ, Jiang JJ, Gu KS, He YH, and Kong QP

Abstract

DNA replication is precisely regulated in cells and its dysregulation can trigger tumorigenesis. Here we identified that the TOPBP1 interacting checkpoint and replication regulator ( TICRR ) mRNA level was universally and highly expressed in 15 solid cancer types. Depletion of TICRR significantly inhibited tumor cell growth, colony formation and migration in vitro , and strikingly inhibited tumor growth in the xenograft model. We reveal that knockdown of TICRR inhibited not only the initiation but also the fork progression of DNA replication. Suppression of DNA synthesis by TICRR silencing caused DNA damage accumulation, subsequently activated the ATM/CHK2 dependent p53 signaling, and finally induced cell cycle arrest and apoptosis at least in p53-wild cancer cells. Further, we show that a higher TICRR level was associated with poorer overall survival (OS) and disease free survival (DFS) in multiple cancer types. In conclusion, our study shows that TICRR is involved in tumorigenesis by regulating DNA replication, acting as a common biomarker for cancer prognosis and could be a promising target for drug-development and cancer treatment.

Published

2019

29. Identification of four hub genes associated with adrenocortical carcinoma progression by WGCNA.

Author

Xia WX, Yu Q, Li GH, Liu YW, Xiao FH, Yang LQ, Rahman ZU, Wang HT, and Kong QP

Abstract

Background: Adrenocortical carcinoma (ACC) is a rare and aggressive malignant cancer in the adrenal cortex with poor prognosis. Though previous research has attempted to elucidate the progression of ACC, its molecular mechanism remains poorly understood., Methods: Gene transcripts per million (TPM) data were downloaded from the UCSC Xena database, which included ACC (The Cancer Genome Atlas, n = 77) and normal samples (Genotype Tissue Expression, n = 128). We used weighted gene co-expression network analysis to identify gene connections. Overall survival (OS) was determined using the univariate Cox model. A protein-protein interaction (PPI) network was constructed by the search tool for the retrieval of interacting genes., Results: To determine the critical genes involved in ACC progression, we obtained 2,953 significantly differentially expressed genes and nine modules. Among them, the blue module demonstrated significant correlation with the "Stage" of ACC. Enrichment analysis revealed that genes in the blue module were mainly enriched in cell division, cell cycle, and DNA replication. Combined with the PPI and co-expression networks, we identified four hub genes (i.e., TOP2A , TTK , CHEK1 , and CENPA ) that were highly expressed in ACC and negatively correlated with OS. Thus, these identified genes may play important roles in the progression of ACC and serve as potential biomarkers for future diagnosis., Competing Interests: The authors declare that they have no competing interests.

Published

2019

30. Dynamic DNA Methylation During Aging: A "Prophet" of Age-Related Outcomes.

Author

Xiao FH, Wang HT, and Kong QP

Abstract

The biological markers of aging used to predict physical health status in older people are of great interest. Telomere shortening, which occurs during the process of cell replication, was initially considered a promising biomarker for the prediction of age and age-related outcomes (e.g., diseases, longevity). However, the high instability in detection and low correlation with age-related outcomes limit the extension of telomere length to the field of prediction. Currently, a growing number of studies have shown that dynamic DNA methylation throughout human lifetime exhibits strong correlation with age and age-related outcomes. Indeed, many researchers have built age prediction models with high accuracy based on age-dependent methylation changes in certain CpG loci. For now, DNA methylation based on epigenetic clocks, namely epigenetic or DNA methylation age, serves as a new standard to track chronological age and predict biological age. Measures of age acceleration (Δage, DNA methylation age - chronological age) have been developed to assess the health status of a person. In addition, there is evidence that an accelerated epigenetic age exists in patients with certain age-related diseases (e.g., Alzheimer's disease, cardiovascular disease). In this review, we provide an overview of the dynamic signatures of DNA methylation during aging and emphasize its practical utility in the prediction of various age-related outcomes.

Published

2019

31. Transcriptome evidence reveals enhanced autophagy-lysosomal function in centenarians.

Author

Xiao FH, Chen XQ, Yu Q, Ye Y, Liu YW, Yan D, Yang LQ, Chen G, Lin R, Yang L, Liao X, Zhang W, Zhang W, Tang NL, Wang XF, Zhou J, Cai WW, He YH, and Kong QP

Subjects

Aged, Aged, 80 and over, Autophagy-Related Proteins genetics, Autophagy-Related Proteins metabolism, Beclin-1 genetics, Beclin-1 metabolism, Cathepsin B genetics, Cathepsin B metabolism, Cysteine Endopeptidases genetics, Cysteine Endopeptidases metabolism, Female, Humans, Lysosomes metabolism, Male, Membrane Proteins genetics, Membrane Proteins metabolism, Middle Aged, Vacuolar Proton-Translocating ATPases genetics, Vacuolar Proton-Translocating ATPases metabolism, Autophagy genetics, Longevity genetics, Transcriptome

Abstract

Centenarians (CENs) are excellent subjects to study the mechanisms of human longevity and healthy aging. Here, we analyzed the transcriptomes of 76 centenarians, 54 centenarian-children, and 41 spouses of centenarian-children by RNA sequencing and found that, among the significantly differentially expressed genes (SDEGs) exhibited by CENs, the autophagy-lysosomal pathway is significantly up-regulated. Overexpression of several genes from this pathway, CTSB , ATP6V0C , ATG4D , and WIPI1 , could promote autophagy and delay senescence in cultured IMR-90 cells, while overexpression of the Drosophila homolog of WIPI1 , Atg18a , extended the life span in transgenic flies. Interestingly, the enhanced autophagy-lysosomal activity could be partially passed on to their offspring, as manifested by their higher levels of both autophagy-encoding genes and serum beclin 1 (BECN1). In light of the normal age-related decline of autophagy-lysosomal functions, these findings provide a compelling explanation for achieving longevity in, at least, female CENs, given the gender bias in our collected samples, and suggest that the enhanced waste-cleaning activity via autophagy may serve as a conserved mechanism to prolong the life span from Drosophila to humans., (© 2018 Xiao et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2018

32. Accelerated DNA methylation changes in middle-aged men define sexual dimorphism in human lifespans.

Author

Xiao FH, Chen XQ, He YH, and Kong QP

Subjects

Age Factors, Cohort Studies, CpG Islands, Drinking, Humans, Male, Middle Aged, Prevalence, Sex Characteristics, Smoking epidemiology, DNA Methylation, Genome-Wide Association Study methods, Longevity genetics, Smoking genetics

Abstract

Background: Accelerated age-associated DNA methylation changes in males may explain the earlier onset of age-related diseases (e.g., cardiovascular disease (CVD)) and thus contribute to sexually dimorphic morbidity and lifespan. However, the details regarding the emergence of this sex-biased methylation pattern remain unclear., Results: To address these issues, we collected publicly available peripheral blood methylation datasets detected by Illumina HumanMethylation450 BeadChip platform from four studies that contain age and gender information of samples. We analyzed peripheral blood methylation data screened from 708 subjects of European ancestry. Results revealed a significant methylation change acceleration in middle-aged males (40-50 years old), which was further supported by another cohort containing 2711 subjects with Indian ancestry. Additional analyses suggested that these sexually dimorphic methylation changes were significantly overrepresented in genes associated with CVD, which may impact the potential activation of disease expression. Furthermore, we showed that higher prevalence of drinking and smoking in the males has some contribution to the sex-based methylation patterns during aging., Conclusion: Our results indicated that the sex-biased methylation changes occurred in middle-aged men in an acceleration manner and likely contribute to the sexual dimorphism observed in human lifespan by promoting the occurrence of CVD. As drinking and smoking were also found to be associated with this accelerated methylation change in men, it is possible that male lifespan may be prolonged by improving unhealthy lifestyles at or before middle age.

Published

2018

33. [The origin and evolution history of East Asian populations from genetic perspectives].

Author

Tian JY, Li YC, Kong QP, and Zhang YP

Subjects

Asia, Evolution, Molecular, Human Genetics, Humans, Phylogeny, Asian People genetics, Genetics, Population

Abstract

East Asia is widely concerned as one of the important places for the dispersal and evolution of the Anatomically Modern Human (AMH). How the diverse ethnic groups in East Asia originated and diversified is also widely focused by different disciplines of Anthropology. The adoption of genetic data had provided new clues for reconstructing the genetic history of East Asian populations. Genetic studies supported the hypothesis that the AMHs originated from Africa's Homo sapiens at about 200 kilo years ago (kya) and then migrated out of Africa at ~100 kya, followed by expansions into the whole East Asia since their arrival in Southern East Asia at 5~6 kya along the coastal route. Early Homo Sapiens might have genetic contribution to the non-African AMHs. Early settlement, cultural assimilation, population migration and genetic exchanges are crucial in the origination and evolution of East Asia populations. Previous studies made detailed analysis for the genetic history of East Asian populations, which largely resolved the longstanding divergence between archaeology and history. However, this needs further verification by whole-genome sequencing and ancient DNA studies. Here we briefly reviewed the progresses of genetic studies in exploring the population origin, dispersal and diversification in East Asia, which improved understanding of the evolution of East Asian populations. We also prospected the future of genetic studies in revealing the prehistory of East Asians.

Published

2018

34. Switching off IMMP2L signaling drives senescence via simultaneous metabolic alteration and blockage of cell death.

Author

Yuan L, Zhai L, Qian L, Huang, Ding Y, Xiang H, Liu X, Thompson JW, Liu J, He YH, Chen XQ, Hu J, Kong QP, Tan M, and Wang XF

Subjects

Aging, Animals, Cell Death, Cell Line, HEK293 Cells, HeLa Cells, Humans, Mice, Inbred C57BL, Oxidative Stress, Apoptosis Inducing Factor metabolism, Cellular Senescence, Endopeptidases metabolism, Glycerolphosphate Dehydrogenase metabolism, Signal Transduction

Abstract

Cellular senescence is a fundamental cell fate playing a significant role throughout the natural aging process. However, the molecular determinants distinguishing senescence from other cell-cycle arrest states such as quiescence and post-mitotic state, and the specified mechanisms underlying cell-fate decisions towards senescence versus cell death in response to cellular stress stimuli remain less understood. Employing multi-omics approaches, we revealed that switching off the specific mitochondrial processing machinery involving the peptidase IMMP2L serves as the foundation of the senescence program, which was also observed during the mammalian aging process. Mechanistically, we demonstrate that IMMP2L processes and thus activates at least two substrates, mitochondrial metabolic enzyme glycerol-3-phosphate dehydrogenase (GPD2) and cell death regulator apoptosis-inducing factor (AIF). For cells destined to senesce, concerted shutdown of the IMMP2L-GPD2 and IMMP2L-AIF signaling axes collaboratively drives the senescent process by reprogramming mitochondria-associated redox status, phospholipid metabolism and signaling network, and simultaneously blocking cell death under oxidative stress conditions.

Published

2018

35. Cultural diffusion of Indo-Aryan languages into Bangladesh: A perspective from mitochondrial DNA.

Author

Li YC, Wang HW, Tian JY, Li RL, Rahman ZU, and Kong QP

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Bangladesh, DNA, Mitochondrial chemistry, Female, Gene Flow, Humans, Middle Aged, Sequence Analysis, DNA, Young Adult, DNA, Mitochondrial genetics, Ethnicity, Genome, Mitochondrial, Human Migration, Racial Groups

Abstract

Although both linguistic and historical studies indicated only a small group of Aryans had been involved into the diffusion of Indo-Aryan languages into Bangladesh, no genetic studies had been carried out to prove this notion. By studying mitochondrial DNA variants of 240 Bengali speakers in Bangladesh, among which 23 mitogenomes are completely sequenced, we found a high proportion of South Asian components in this group. By contrast, only a small proportion of lineages can be traced back to western Eurasia, which could be attributed to recent gene flow. Our results implied a cultural diffusion of the Indo-Aryan languages into Bangladesh., (Copyright © 2017 Elsevier B.V. and Mitochondria Research Society. All rights reserved.)

Published

2018

36. A Normalization-Free and Nonparametric Method Sharpens Large-Scale Transcriptome Analysis and Reveals Common Gene Alteration Patterns in Cancers.

Author

Li QG, He YH, Wu H, Yang CP, Pu SY, Fan SQ, Jiang LP, Shen QS, Wang XX, Chen XQ, Yu Q, Li Y, Sun C, Wang X, Zhou J, Li HP, Chen YB, and Kong QP

Subjects

Humans, Computational Biology methods, Gene Expression Profiling methods, Genes, Neoplasm, Neoplasms pathology

Abstract

Heterogeneity in transcriptional data hampers the identification of differentially expressed genes (DEGs) and understanding of cancer, essentially because current methods rely on cross-sample normalization and/or distribution assumption-both sensitive to heterogeneous values. Here, we developed a new method, Cross-Value Association Analysis (CVAA), which overcomes the limitation and is more robust to heterogeneous data than the other methods. Applying CVAA to a more complex pan-cancer dataset containing 5,540 transcriptomes discovered numerous new DEGs and many previously rarely explored pathways/processes; some of them were validated, both in vitro and in vivo , to be crucial in tumorigenesis, e.g., alcohol metabolism ( ADH1B ), chromosome remodeling ( NCAPH ) and complement system ( Adipsin ). Together, we present a sharper tool to navigate large-scale expression data and gain new mechanistic insights into tumorigenesis., Competing Interests: Competing Interests: The authors have declared that no competing interest exists.

Published

2017

37. ERCC6L, a DNA helicase, is involved in cell proliferation and associated with survival and progress in breast and kidney cancers.

Author

Pu SY, Yu Q, Wu H, Jiang JJ, Chen XQ, He YH, and Kong QP

Subjects

Animals, Apoptosis genetics, Breast Neoplasms metabolism, Breast Neoplasms pathology, Cell Cycle Checkpoints genetics, Cell Line, Tumor, Cell Proliferation, Disease Models, Animal, Disease Progression, Female, Gene Knockdown Techniques, Gene Silencing, Heterografts, Humans, Kidney Neoplasms metabolism, Kidney Neoplasms pathology, Male, Mice, Mitogen-Activated Protein Kinases genetics, Mitogen-Activated Protein Kinases metabolism, Prognosis, rab GTP-Binding Proteins genetics, rab GTP-Binding Proteins metabolism, Breast Neoplasms genetics, Breast Neoplasms mortality, DNA Helicases genetics, Kidney Neoplasms genetics, Kidney Neoplasms mortality

Abstract

By analyzing 4987 cancer transcriptomes from The Cancer Genome Atlas (TCGA), we identified that excision repair cross-complementation group 6 like (ERCC6L), a newly discovered DNA helicase, is highly expressed in 12 solid cancers. However, its role and mechanism in tumorigenesis are largely unknown. In this study, we found that ERCC6L silencing by small interring RNA (siRNA) or short hairpin RNA (shRNA) significantly inhibited the proliferation of breast (MCF-7, MDA-MB-231) and kidney cancer cells (786-0). Furthermore, ERCC6L silencing induced cell cycle arrest at G0/G1 phase without affecting apoptosis. We then performed RNA sequencing (RNA-seq) analysis after ERCC6L silencing and identified that RAB31 was markedly downregulated at both the transcriptional and translational levels. Its downstream protein, phosphorylated MAPK and CDK2 were also inhibited by ERCC6L silencing. The xenograft experiment showed that silencing of ERCC6L strikingly inhibited tumor growth from the 7th day after xenograft in nude mice. In addition, higher ERCC6L expression was found to be significantly associated with worse clinical survival in breast and kidney cancers. In conclusion, our results suggest that ERCC6L may stimulates cancer cell proliferation by promoting cell cycle through a way of RAB31-MAPK-CDK2, and it could be a potential biomarker for cancer prognosis and target for cancer treatment.

Published

2017

38. NCAPH plays important roles in human colon cancer.

Author

Yin L, Jiang LP, Shen QS, Xiong QX, Zhuo X, Zhang LL, Yu HJ, Guo X, Luo Y, Dong J, Kong QP, Yang CP, and Chen YB

Subjects

Adenosine Triphosphatases metabolism, Aged, Aged, 80 and over, Apoptosis physiology, Carcinogenesis metabolism, Carcinogenesis pathology, Cell Cycle Checkpoints physiology, Cell Line, Cell Line, Tumor, Cell Proliferation physiology, DNA-Binding Proteins metabolism, Female, G2 Phase Cell Cycle Checkpoints physiology, Humans, Male, Meiosis physiology, Middle Aged, Mitosis physiology, Multiprotein Complexes metabolism, Prognosis, Survival Rate, Cell Cycle Proteins metabolism, Colonic Neoplasms metabolism, Colonic Neoplasms pathology, Nuclear Proteins metabolism

Abstract

Colon cancer (CC) is one of the major malignancies worldwide, whose pathogenesis is complex and requires the accumulated alteration of multiple genes and signaling pathways. Condensins are multi-protein complexes that play pivotal roles in chromosome assembly and segregation during mitosis, meiosis and even tumorigenesis. Using tissue microarrays by immunohistochemistry and hematoxylin-eosin staining, we found that non-SMC condensin I complex subunit H (NCAPH) in colon cancerous tissues was higher than that in all corresponding adjacent non-cancerous tissues. We then characterized the exact function of the NCAPH in CC. We provided evidences showing that NCAPH is highly expressed in colorectal cancer cell lines comparing with normal human colonic epithelial cells, and identified many NCAPH mutations in CC patients. We found that depletion of NCAPH inhibits CC cell proliferation, migration in vitro and xenograft tumor formation in vivo. Furthermore, NCAPH knockdown promotes cell apoptosis and cell cycle arrest at G2/M phase. Interestingly, the NCAPH high expression in tumor tissues of colon patients had a significantly better prognosis and survival rate than low-expression patients, suggesting that NCAPH high expression promotes colonic cancerous cell proliferation; on the other hand, it may also sensitize these cells responding to chemo- or radio-therapies. Collectively, these findings reveal an important role of NCAPH in CC, indicating that NCAPH could be used as a new therapeutic target in future.

Published

2017

39. Exome-wide Association Study Identifies CLEC3B Missense Variant p.S106G as Being Associated With Extreme Longevity in East Asian Populations.

Author

Tanisawa K, Arai Y, Hirose N, Shimokata H, Yamada Y, Kawai H, Kojima M, Obuchi S, Hirano H, Yoshida H, Suzuki H, Fujiwara Y, Ihara K, Sugaya M, Arai T, Mori S, Sawabe M, Sato N, Muramatsu M, Higuchi M, Liu YW, Kong QP, and Tanaka M

Subjects

Adult, Aged, Aged, 80 and over, Female, Genetic Variation, Genome-Wide Association Study, Humans, Male, Middle Aged, Asian People genetics, Exome genetics, Lectins, C-Type genetics, Longevity genetics

Abstract

Life span is a complex trait regulated by multiple genetic and environmental factors; however, the genetic determinants of extreme longevity have been largely unknown. To identify the functional coding variants associated with extreme longevity, we performed an exome-wide association study (EWAS) on a Japanese population by using an Illumina HumanExome Beadchip and a focused replication study on a Chinese population. The EWAS on two independent Japanese cohorts consisting of 530 nonagenarians/centenarians demonstrated that the G allele of CLEC3B missense variant p.S106G was associated with extreme longevity at the exome-wide level of significance (p = 2.33×10-7, odds ratio [OR] = 1.50). The CLEC3B gene encodes tetranectin, a protein implicated in the mineralization process in osteogenesis as well as in the prognosis and metastasis of cancer. The replication study consisting of 448 Chinese nonagenarians/centenarians showed that the G allele of CLEC3B p.S106G was also associated with extreme longevity (p = .027, OR = 1.51), and the p value of this variant reached 1.87×10-8 in the meta-analysis of Japanese and Chinese populations. In conclusion, the present study identified the CLEC3B p.S106G as a novel longevity-associated variant, raising the novel hypothesis that tetranectin, encoded by CLEC3B, plays a role in human longevity and aging., (© The Author 2016. Published by Oxford University Press on behalf of The Gerontological Society of America.)

Published

2017

40. Large-scale DNA methylation expression analysis across 12 solid cancers reveals hypermethylation in the calcium-signaling pathway.

Author

Wang XX, Xiao FH, Li QG, Liu J, He YH, and Kong QP

Subjects

Cell Line, Tumor, Epigenesis, Genetic, Gene Expression Regulation, Neoplastic, Humans, Calcium metabolism, Calcium Signaling genetics, DNA Methylation, Neoplasms genetics, Neoplasms metabolism

Abstract

Tumorigenesis is linked to the role of DNA methylation in gene expression regulation. Yet, cancer is a highly heterogeneous disease in which the global pattern of DNA methylation and gene expression, especially across diverse cancers, is not well understood. We investigated DNA methylation status and its association with gene expressions across 12 solid cancer types obtained from The Cancer Genome Atlas. Results showed that global hypermethylation was an important characteristic across all 12 cancer types. Moreover, there were more epigenetically silenced than epigenetically activated genes across the cancers. Further analysis identified epigenetically silenced genes shared in the calcium-signaling pathway across the different cancer types. Reversing the aberrant DNA methylation of genes involved in the calcium-signaling pathway could be an effective strategy for suppressing cancers and developing anti-cancer drugs.

Published

2017

41. Insights into long noncoding RNAs of naked mole rat ( Heterocephalus glaber ) and their potential association with cancer resistance.

Author

Jiang JJ, Cheng LH, Wu H, He YH, and Kong QP

Subjects

Animals, Databases, Genetic, Genome, Humans, Mice, Neoplasms metabolism, Neoplasms pathology, RNA, Long Noncoding genetics, Rats, Transcriptome, Disease Resistance genetics, Mole Rats genetics, Neoplasms genetics, RNA, Long Noncoding metabolism

Abstract

Background: Long noncoding RNAs (lncRNAs) are a class of ubiquitous noncoding RNAs and have been found to act as tumor suppressors or oncogenes, which dramatically altered our understanding of cancer. Naked mole rat (NMR, Heterocephalus glaber ) is an exceptionally long-lived and cancer-resistant rodent; however, whether lncRNAs play roles in cancer resistance in this seductive species remains unknown., Results: In this study, we developed a pipeline and identified a total of 4422 lncRNAs across the NMR genome based on 12 published transcriptomes. Systematic analysis revealed that NMR lncRNAs share many common characteristics with other vertebrate species, such as tissue specificity and low expression. BLASTN against with 1057 human cancer-related lncRNAs showed that only 5 NMR lncRNAs displayed homology, demonstrating the low sequence conservation between NMR lncRNAs and human cancer-related lncRNAs. Further correlation analysis of lncRNAs and protein-coding genes indicated that a total of 1295 lncRNAs were intensively coexpressed ( r  ≥ 0.9 or r  ≤ -0.9, cP value ≤ 0.01) with potential tumor-suppressor genes in NMR, and 194 lncRNAs exhibited strong correlation ( r  ≥ 0.8 or r  ≤ -0.8, cP value ≤ 0.01) with four high-molecular-mass hyaluronan related genes that were previously identified to play key roles in cancer resistance of NMR., Conclusion: In this study, we provide the first comprehensive genome-wide analysis of NMR lncRNAs and their possible associations with cancer resistance. Our results suggest that lncRNAs may have important effects on anticancer mechanism in NMR.

Published

2016

42. Progress on the role of DNA methylation in aging and longevity.

Author

Xiao FH, Kong QP, Perry B, and He YH

Subjects

Animals, Humans, Aging genetics, DNA Methylation, Epigenesis, Genetic, Gene Expression Regulation, Longevity genetics

Abstract

Aging is a major risk factor for individuals' health problems. Moreover, environmental signals have a widespread influence on the aging process. Epigenetic modification, e.g. DNA methylation, represents a link between genetic and environmental signals via the regulation of gene transcription. An abundance of literature indicates that aberrant epigenetic change occurs throughout the aging process at both the cellular and the organismal level. In particular, DNA methylation presents globally decreasing and site-specific increasing in aging. In this review, we focus on the crucial roles of DNA methylation in aging and age-related disease and highlight the great potential of DNA methylation as a therapeutic target in preventing age-related diseases and promoting healthy longevity., (© The Author 2016. Published by Oxford University Press. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2016

43. Familial longevity study reveals a significant association of mitochondrial DNA copy number between centenarians and their offspring.

Author

He YH, Chen XQ, Yan DJ, Xiao FH, Lin R, Liao XP, Liu YW, Pu SY, Yu Q, Sun HP, Jiang JJ, Cai WW, and Kong QP

Subjects

Aged, 80 and over, DNA-Binding Proteins genetics, Energy Metabolism genetics, Female, Humans, Male, DNA Copy Number Variations genetics, DNA, Mitochondrial genetics, Genetic Association Studies, Longevity genetics

Abstract

Reduced mitochondrial function is an important cause of aging and age-related diseases. We previously revealed a relatively higher level of mitochondrial DNA (mtDNA) content in centenarians. However, it is still unknown whether such an mtDNA content pattern of centenarians could be passed on to their offspring and how it was regulated. To address these issues, we recruited 60 longevity families consisting of 206 family members (cohort 1) and explored their mtDNA copy number. The results showed that the first generation of the offspring (F1 offspring) had a higher level of mtDNA copy number than their spouses (p < 0.05) independent of a gender effect. In addition, we found a positive association of mtDNA copy number in centenarians with that in F1 offspring (r = 0.54, p = 0.0008) but not with that in F1 spouses. These results were replicated in another independent cohort consisting of 153 subjects (cohort 2). RNA sequencing analysis suggests that the single-stranded DNA-binding protein 4 was significantly associated with mtDNA copy number and was highly expressed in centenarians as well as F1 offspring versus the F1 spouses, thus likely regulates the mtDNA copy number in the long-lived family members. In conclusion, our results suggest that the pattern of high mtDNA copy number is likely inheritable, which may act as a favorable factor to familial longevity through assuring adequate energy supply., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

44. Mitochondrial DNA plays an equal role in influencing female and male longevity in centenarians.

Author

He YH, Lu X, Tian JY, Yan DJ, Li YC, Lin R, Perry B, Chen XQ, Yu Q, Cai WW, and Kong QP

Subjects

Adult, Aged, Aged, 80 and over, China, Female, Genetic Variation, Genome, Mitochondrial, Haplotypes, Humans, Male, Middle Aged, DNA, Mitochondrial genetics, Longevity genetics, Mitochondria genetics, Sex Factors

Abstract

The mitochondrion is a double membrane-bound organelle which plays important functional roles in aging and many other complex phenotypes. Transmission of the mitochondrial genome in the matrilineal line causes the evolutionary selection sieve only in females. Theoretically, beneficial or neutral variations are more likely to accumulate and be retained in the female mitochondrial genome during evolution, which may be an initial trigger of gender dimorphism in aging. The asymmetry of evolutionary processes between gender could lead to males and females aging in different ways. If so, gender specific variation loads could be an evolutionary result of maternal heritage of mitochondrial genomes, especially in centenarians who live to an extreme age and are considered as good models for healthy aging. Here, we tested whether the mitochondrial variation loads were associated with altered aging patterns by investigating the mtDNA haplogroup distribution and genetic diversity between female and male centenarians. We found no evidence of differences in aging patterns between genders in centenarians. Our results indicate that the evolutionary consequence of gender dimorphism in mitochondrial genomes is not a factor in the altered aging patterns in human, and that mitochondrial DNA contributes equally to longevity in males and females., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

45. Exploring the maternal history of the Tai people.

Author

Li YC, Huang W, Tian JY, Chen XQ, and Kong QP

Subjects

Asia, Southeastern, Cluster Analysis, Geography, Haplotypes, Humans, Population Dynamics, Sequence Analysis, DNA, Asian People genetics, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population

Abstract

In the past decades, the Tai people are increasingly being focused by genetic studies. However, a systematic genetic study of the whole Tai people is still lacking, thus making the population structure as well as the demographic history of this group uninvestigated from genetic perspective. Here we extensively analyzed the variants of hypervariable segments I and II (HVS-I and HVS-II) of mitochondrial DNA (mtDNA) of 719 Tai samples from 19 populations, covering virtually all of the current Tai people's residences. We observed a general close genetic affinity of the Tai people, reflecting a common origin of this group. Taken into account the phylogeographic analyses of their shared components, including haplogroups F1a, M7b and B5a, our study supported a southern Yunnan origin of the Tai people, consistent with the historical records. In line with their diverse cultures and languages, substantial genetic divergences can be observed among different Tai populations that could be attributable to assimilation of maternal components from neighboring populations. Our study further implied the advent of rice agriculture in Mainland Southeast Asia at ∼5 kya (kilo years ago) had greatly promoted the population expansion of the Tai people.

Published

2016

46. CFH Variants Affect Structural and Functional Brain Changes and Genetic Risk of Alzheimer's Disease.

Author

Zhang DF, Li J, Wu H, Cui Y, Bi R, Zhou HJ, Wang HZ, Zhang C, Wang D, Kong QP, Li T, Fang Y, Jiang T, and Yao YG

Subjects

Aged, Alzheimer Disease metabolism, Alzheimer Disease pathology, Asian People, China, Complement Factor H genetics, Complement Factor H metabolism, Endophenotypes, Female, Genetic Testing, Genotype, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide, RNA, Messenger metabolism, Risk Factors, Alzheimer Disease genetics, Alzheimer Disease immunology, Brain pathology, Genetic Predisposition to Disease

Abstract

The immune response is highly active in Alzheimer's disease (AD). Identification of genetic risk contributed by immune genes to AD may provide essential insight for the prognosis, diagnosis, and treatment of this neurodegenerative disease. In this study, we performed a genetic screening for AD-related top immune genes identified in Europeans in a Chinese cohort, followed by a multiple-stage study focusing on Complement Factor H (CFH) gene. Effects of the risk SNPs on AD-related neuroimaging endophenotypes were evaluated through magnetic resonance imaging scan, and the effects on AD cerebrospinal fluid biomarkers (CSF) and CFH expression changes were measured in aged and AD brain tissues and AD cellular models. Our results showed that the AD-associated top immune genes reported in Europeans (CR1, CD33, CLU, and TREML2) have weak effects in Chinese, whereas CFH showed strong effects. In particular, rs1061170 (P(meta)=5.0 × 10(-4)) and rs800292 (P(meta)=1.3 × 10(-5)) showed robust associations with AD, which were confirmed in multiple world-wide sample sets (4317 cases and 16 795 controls). Rs1061170 (P=2.5 × 10(-3)) and rs800292 (P=4.7 × 10(-4)) risk-allele carriers have an increased entorhinal thickness in their young age and a higher atrophy rate as the disease progresses. Rs800292 risk-allele carriers have higher CSF tau and Aβ levels and severe cognitive decline. CFH expression level, which was affected by the risk-alleles, was increased in AD brains and cellular models. These comprehensive analyses suggested that CFH is an important immune factor in AD and affects multiple pathological changes in early life and during disease progress.

Published

2016

47. Improved lipids, diastolic pressure and kidney function are potential contributors to familial longevity: a study on 60 Chinese centenarian families.

Author

He YH, Pu SY, Xiao FH, Chen XQ, Yan DJ, Liu YW, Lin R, Liao XP, Yu Q, Yang LQ, Yang XL, Ge MX, Li Y, Jiang JJ, Cai WW, and Kong QP

Subjects

Adult, Aged, Aged, 80 and over, Aging, Asian People, Blood Urea Nitrogen, China, Cholesterol blood, Creatinine blood, Cystatin C metabolism, Humans, Kidney Function Tests, Lipid Metabolism genetics, Male, Middle Aged, Transcriptome, Triglycerides blood, Uric Acid blood, Blood Pressure physiology, Kidney metabolism, Lipids blood, Longevity

Abstract

Centenarians are a good healthy aging model. Interestingly, centenarians' offspring are prone to achieve longevity. Here we recruited 60 longevity families and investigated the blood biochemical indexes of family members to seek candidate factors associated with familial longevity. First, associations of blood indexes with age were tested. Second, associations of blood parameters in centenarians (CEN) with their first generation of offspring (F1) and F1 spouses (F1SP) were analyzed. Third, genes involved in regulating target factors were investigated. We found that total cholesterol (TC) and triglyceride (TG) increased with age (20-80 years), but decreased in CEN. Similarly, blood urea nitrogen (BUN) and blood creatinine (BCr) increased with age (20-80 years), but were maintained on a plateau in CEN. Importantly, we first revealed dual changes in blood pressure, i.e., decreased diastolic blood pressure but increased systolic blood pressure in CEN, which associated with altered CST3 expression. Genetic analysis revealed a significant association of blood uric acid (BUA) and BCr in CEN with F1 but not with F1SP, suggesting they may be heritable traits. Taken together, our results suggest serum lipids, kidney function and especially diastolic pressure rather than systolic pressure were improved in CEN or their offspring, suggesting these factors may play an important role in familial longevity.

Published

2016

48. Lower mitochondrial DNA content relates to high-altitude adaptation in Tibetans.

Author

Li Y, Huang W, Yu Q, Cheng YT, and Kong QP

Subjects

Aging genetics, Blood Glucose metabolism, Carbon Dioxide metabolism, Cholesterol metabolism, Female, Gene Dosage, Humans, Male, Tibet, Triglycerides metabolism, Adaptation, Physiological genetics, Altitude, DNA, Mitochondrial genetics

Abstract

Mitochondrial DNA (mtDNA) is crucial to mitochondria in energy production and other physiological functions. When lowlanders arrive at high altitude, the mitochondrial content tends to decrease. However, the mtDNA content of native highlanders share the same feature as lowlanders remains unknown. It is also interesting to dissect the other changes in blood plasma that might accompany the change of mtDNA content. To address these issues, we recruited 241 Tibetan subjects in Tibet and 220 Han subjects in Shaanxi province. Relative mtDNA copy number and blood biochemical indexes were measured. Results show that relative mtDNA copy number in Tibetans is significantly lower as compared to Han subjects; sex, age, blood glucose, triglyceride and total cholesterol show no influence on mtDNA content, but carbon dioxide combining power is negatively correlated with mtDNA content. These results indicate that an increase in CO2 combining power along with lower mtDNA content may provide adaptive potential.

Published

2016

49. Discovery of the Fuyan teeth: challenging or complementing the out-of-Africa scenario?

Author

Li YC, Tian JY, and Kong QP

Subjects

Africa, Animals, China, Humans, Biological Evolution, Hominidae genetics, Tooth chemistry

Published

2015

50. Sex-specific association of rs4746172 of VCL gene with hypertension in two Han populations from Southern China.

Author

Yu Q, Sun HP, Chen WQ, Chen XQ, Xu Y, He YH, and Kong QP

Subjects

Aged, Asian People, Cardiomyopathies complications, Cardiomyopathies pathology, China, Female, Genetic Association Studies, Genotype, Haplotypes, Humans, Hypertension complications, Hypertension pathology, Male, Middle Aged, Polymorphism, Single Nucleotide, Sex Characteristics, Cardiomyopathies genetics, Genetic Predisposition to Disease, Hypertension genetics, Vinculin genetics

Abstract

Hypertension is the most common and lethal risk factor for cardiovascular disease (CVD). Numerous variants have been associated with hypertension, however, most of which failed to get replication due to ethnic differences. In this study, we analyzed associations of 10 newly reported single nucleotide polymorphisms (SNPs) in Europeans with hypertension in Chinese. A total of 1766 samples consisting of 880 subjects with hypertension and 886 controls were collected and the SNPs were genotyped using multiple assays based on the SNaPshot mini-sequencing approach. Our results revealed a significant genotypic association of rs4746172 of VCL with hypertension with a lower frequency of minor allele in male subjects (OR = 0.70, 95% CI: 0.54-0.92, p = 0.011) but not in females. To validate the result, we genotyped the SNPs in another Chinese population with 546 individuals, and got a consistent association for the rs4746172 (OR = 0.56, 95% CI: 0.38-0.82, p = 2.4 × 10(-3)) in males. The VCL-encoding protein was involved in cardiomyopathy that associated with hypertension, therefore our results suggest the rs4746172 of VCL may be a novel target for clinical interventions to reduce CVD risk by regulating blood pressure in male Chinese.

Published

2015