Your search keyword '"Anna J. Jasinska"' showing total 69 results

1. Walk on the wild side: SIV infection in African non-human primate hosts—from the field to the laboratory

Author

Anna J. Jasinska, Cristian Apetrei, and Ivona Pandrea

Subjects

AIDS - acquired immunodeficiency syndrome, HIV - human immunodeficiency virus, nonhuman primate (NHP), African green monkey (AGM) (Chlorocebus aethiops), mucosal immune barrier, inflammation, Immunologic diseases. Allergy, RC581-607

Abstract

HIV emerged following cross-species transmissions of simian immunodeficiency viruses (SIVs) that naturally infect non-human primates (NHPs) from Africa. While HIV replication and CD4+ T-cell depletion lead to increased gut permeability, microbial translocation, chronic immune activation, and systemic inflammation, the natural hosts of SIVs generally avoid these deleterious consequences when infected with their species-specific SIVs and do not progress to AIDS despite persistent lifelong high viremia due to long-term coevolution with their SIV pathogens. The benign course of natural SIV infection in the natural hosts is in stark contrast to the experimental SIV infection of Asian macaques, which progresses to simian AIDS. The mechanisms of non-pathogenic SIV infections are studied mainly in African green monkeys, sooty mangabeys, and mandrills, while progressing SIV infection is experimentally modeled in macaques: rhesus macaques, pigtailed macaques, and cynomolgus macaques. Here, we focus on the distinctive features of SIV infection in natural hosts, particularly (1): the superior healing properties of the intestinal mucosa, which enable them to maintain the integrity of the gut barrier and prevent microbial translocation, thus avoiding excessive/pathologic immune activation and inflammation usually perpetrated by the leaking of the microbial products into the circulation; (2) the gut microbiome, the disruption of which is an important factor in some inflammatory diseases, yet not completely understood in the course of lentiviral infection; (3) cell population shifts resulting in target cell restriction (downregulation of CD4 or CCR5 surface molecules that bind to SIV), control of viral replication in the lymph nodes (expansion of natural killer cells), and anti-inflammatory effects in the gut (NKG2a/c+ CD8+ T cells); and (4) the genes and biological pathways that can shape genetic adaptations to viral pathogens and are associated with the non-pathogenic outcome of the natural SIV infection. Deciphering the protective mechanisms against SIV disease progression to immunodeficiency, which have been established through long-term coevolution between the natural hosts and their species-specific SIVs, may prompt the development of novel therapeutic interventions, such as drugs that can control gut inflammation, enhance gut healing capacities, or modulate the gut microbiome. These developments can go beyond HIV infection and open up large avenues for correcting gut damage, which is common in many diseases.

Published

2023

2. Large Comparative Analyses of Primate Body Site Microbiomes Indicate that the Oral Microbiome Is Unique among All Body Sites and Conserved among Nonhuman Primates

Author

Abigail E. Asangba, Lawrence Mugisha, Joshua Rukundo, Rebecca J. Lewis, Ali Halajian, Liliana Cortés-Ortiz, Randall E. Junge, Mitchell T. Irwin, Johan Karlson, Andrew Perkin, Mrinalini Watsa, Gideon Erkenswick, Karen L. Bales, Dorothy L. Patton, Anna J. Jasinska, Eduardo Fernandez-Duque, Steven R. Leigh, and Rebecca M. Stumpf

Subjects

microbiome, nonhuman primates, variation, Microbiology, QR1-502

Abstract

ABSTRACT The study of the mammalian microbiome serves as a critical tool for understanding host-microbial diversity and coevolution and the impact of bacterial communities on host health. While studies of specific microbial systems (e.g., in the human gut) have rapidly increased, large knowledge gaps remain, hindering our understanding of the determinants and levels of variation in microbiomes across multiple body sites and host species. Here, we compare microbiome community compositions from eight distinct body sites among 17 phylogenetically diverse species of nonhuman primates (NHPs), representing the largest comparative study of microbial diversity across primate host species and body sites. Analysis of 898 samples predominantly acquired in the wild demonstrated that oral microbiomes were unique in their clustering, with distinctive divergence from all other body site microbiomes. In contrast, all other body site microbiomes clustered principally by host species and differentiated by body site within host species. These results highlight two key findings: (i) the oral microbiome is unique compared to all other body site microbiomes and conserved among diverse nonhuman primates, despite their considerable dietary and phylogenetic differences, and (ii) assessments of the determinants of host-microbial diversity are relative to the level of the comparison (i.e., intra-/inter-body site, -host species, and -individual), emphasizing the need for broader comparative microbial analyses across diverse hosts to further elucidate host-microbial dynamics, evolutionary and biological patterns of variation, and implications for human-microbial coevolution. IMPORTANCE The microbiome is critical to host health and disease, but much remains unknown about the determinants, levels, and evolution of host-microbial diversity. The relationship between hosts and their associated microbes is complex. Most studies to date have focused on the gut microbiome; however, large gaps remain in our understanding of host-microbial diversity, coevolution, and levels of variation in microbiomes across multiple body sites and host species. To better understand the patterns of variation and evolutionary context of host-microbial communities, we conducted one of the largest comparative studies to date, which indicated that the oral microbiome was distinct from the microbiomes of all other body sites and convergent across host species, suggesting conserved niche specialization within the Primates order. We also show the importance of host species differences in shaping the microbiome within specific body sites. This large, comparative study contributes valuable information on key patterns of variation among hosts and body sites, with implications for understanding host-microbial dynamics and human-microbial coevolution.

Published

2022

3. Shifts in microbial diversity, composition, and functionality in the gut and genital microbiome during a natural SIV infection in vervet monkeys

Author

Anna J. Jasinska, Tien S. Dong, Venu Lagishetty, William Katzka, Jonathan P. Jacobs, Christopher A. Schmitt, Jennifer Danzy Cramer, Dongzhu Ma, Willem G. Coetzer, J. Paul Grobler, Trudy R. Turner, Nelson Freimer, Ivona Pandrea, and Cristian Apetrei

Subjects

SIV, Microbiome, Proteobacteria, Succinivibrio, Acute infection, Primate, Microbial ecology, QR100-130

Abstract

Abstract Background The microbiota plays an important role in HIV pathogenesis in humans. Microbiota can impact health through several pathways such as increasing inflammation in the gut, metabolites of bacterial origin, and microbial translocation from the gut to the periphery which contributes to systemic chronic inflammation and immune activation and the development of AIDS. Unlike HIV-infected humans, SIV-infected vervet monkeys do not experience gut dysfunction, microbial translocation, and chronic immune activation and do not progress to immunodeficiency. Here, we provide the first reported characterization of the microbial ecosystems of the gut and genital tract in a natural nonprogressing host of SIV, wild vervet monkeys from South Africa. Results We characterized fecal, rectal, vaginal, and penile microbiomes in vervets from populations heavily infected with SIV from diverse locations across South Africa. Geographic site, age, and sex affected the vervet microbiome across different body sites. Fecal and vaginal microbiome showed marked stratification with three enterotypes in fecal samples and two vagitypes, which were predicted functionally distinct within each body site. External bioclimatic factors, biome type, and environmental temperature influenced microbiomes locally associated with vaginal and rectal mucosa. Several fecal microbial taxa were linked to plasma levels of immune molecules, for example, MIG was positively correlated with Lactobacillus and Escherichia/Shigella and Helicobacter, and IL-10 was negatively associated with Erysipelotrichaceae, Anaerostipes, Prevotella, and Anaerovibrio, and positively correlated with Bacteroidetes and Succinivibrio. During the chronic phase of infection, we observed a significant increase in gut microbial diversity, alterations in community composition (including a decrease in Proteobacteria/Succinivibrio in the gut) and functionality (including a decrease in genes involved in bacterial invasion of epithelial cells in the gut), and partial reversibility of acute infection-related shifts in microbial abundance observed in the fecal microbiome. As part of our study, we also developed an accurate predictor of SIV infection using fecal samples. Conclusions The vervets infected with SIV and humans infected with HIV differ in microbial responses to infection. These responses to SIV infection may aid in preventing microbial translocation and subsequent disease progression in vervets, and may represent host microbiome adaptations to the virus. Video Abstract

Published

2020

4. CCR5 as a Coreceptor for Human Immunodeficiency Virus and Simian Immunodeficiency Viruses: A Prototypic Love-Hate Affair

Author

Anna J. Jasinska, Ivona Pandrea, and Cristian Apetrei

Subjects

CCR5, human immunodeficiency virus, simian immunodeficiency virus, delta 32, red-capped mangabey, sooty mangabey, Immunologic diseases. Allergy, RC581-607

Abstract

CCR5, a chemokine receptor central for orchestrating lymphocyte/cell migration to the sites of inflammation and to the immunosurveillance, is involved in the pathogenesis of a wide spectrum of health conditions, including inflammatory diseases, viral infections, cancers and autoimmune diseases. CCR5 is also the primary coreceptor for the human immunodeficiency viruses (HIVs), supporting its entry into CD4+ T lymphocytes upon transmission and in the early stages of infection in humans. A natural loss-of-function mutation CCR5-Δ32, preventing the mutated protein expression on the cell surface, renders homozygous carriers of the null allele resistant to HIV-1 infection. This phenomenon was leveraged in the development of therapies and cure strategies for AIDS. Meanwhile, over 40 African nonhuman primate species are long-term hosts of simian immunodeficiency virus (SIV), an ancestral family of viruses that give rise to the pandemic CCR5 (R5)-tropic HIV-1. Many natural hosts typically do not progress to immunodeficiency upon the SIV infection. They have developed various strategies to minimize the SIV-related pathogenesis and disease progression, including an array of mechanisms employing modulation of the CCR5 receptor activity: (i) deletion mutations abrogating the CCR5 surface expression and conferring resistance to infection in null homozygotes; (ii) downregulation of CCR5 expression on CD4+ T cells, particularly memory cells and cells at the mucosal sites, preventing SIV from infecting and killing cells important for the maintenance of immune homeostasis, (iii) delayed onset of CCR5 expression on the CD4+ T cells during ontogenetic development that protects the offspring from vertical transmission of the virus. These host adaptations, aimed at lowering the availability of target CCR5+ CD4+ T cells through CCR5 downregulation, were countered by SIV, which evolved to alter the entry coreceptor usage toward infecting different CD4+ T-cell subpopulations that support viral replication yet without disruption of host immune homeostasis. These natural strategies against SIV/HIV-1 infection, involving control of CCR5 function, inspired therapeutic approaches against HIV-1 disease, employing CCR5 coreceptor blocking as well as gene editing and silencing of CCR5. Given the pleiotropic role of CCR5 in health beyond immune disease, the precision as well as costs and benefits of such interventions needs to be carefully considered.

Published

2022

5. Seroprevalence of Zika Virus in Wild African Green Monkeys and Baboons

Author

Connor R. Buechler, Adam L. Bailey, Andrea M. Weiler, Gabrielle L. Barry, Meghan E. Breitbach, Laurel M. Stewart, Anna J. Jasinska, Nelson B. Freimer, Cristian Apetrei, Jane E. Phillips-Conroy, Clifford J. Jolly, Jeffrey Rogers, Thomas C. Friedrich, and David H. O’Connor

Subjects

false-positive reactions, Flavivirus, sensitivity and specificity, seroepidemiologic studies, Zika virus, Zika virus infection, Microbiology, QR1-502

Abstract

ABSTRACT Zika virus (ZIKV) has recently spread through the Americas and has been associated with a range of health effects, including birth defects in children born to women infected during pregnancy. Although the natural reservoir of ZIKV remains poorly defined, the virus was first identified in a captive “sentinel” macaque monkey in Africa in 1947. However, the virus has not been reported in humans or nonhuman primates (NHPs) in Africa outside Gabon in over a decade. Here, we examine ZIKV infection in 239 wild baboons and African green monkeys from South Africa, the Gambia, Tanzania, and Zambia using combinations of unbiased deep sequencing, quantitative reverse transcription-PCR (qRT-PCR), and an antibody capture assay that we optimized using serum collected from captive macaque monkeys exposed to ZIKV, dengue virus, and yellow fever virus. While we did not find evidence of active ZIKV infection in wild NHPs in Africa, we found variable ZIKV seropositivity of up to 16% in some of the NHP populations sampled. We anticipate that these results and the methodology described within will help in continued efforts to determine the prevalence, natural reservoir, and transmission dynamics of ZIKV in Africa and elsewhere. IMPORTANCE Zika virus (ZIKV) is a mosquito-borne virus originally discovered in a captive monkey living in the Zika Forest of Uganda, Africa, in 1947. Recently, an outbreak in South America has shown that ZIKV infection can cause myriad health effects, including birth defects in the children of women infected during pregnancy. Here, we sought to investigate ZIKV infection in wild African primates to better understand its emergence and spread, looking for evidence of active or prior infection. Our results suggest that up to 16% of some populations of nonhuman primate were, at some point, exposed to ZIKV. We anticipate that this study will be useful for future studies that examine the spread of infections from wild animals to humans in general and those studying ZIKV in primates in particular. Podcast: A podcast concerning this article is available.

Published

2017

6. Evidence of selection in the uncoupling protein 1 gene region suggests local adaptation to solar irradiance in savannah monkeys (

Author

Christian M, Gagnon, Hannes, Svardal, Anna J, Jasinska, Jennifer, Danzy Cramer, Nelson B, Freimer, J, Paul Grobler, Trudy R, Turner, and Christopher A, Schmitt

Subjects

South Africa, Acclimatization, Chlorocebus aethiops, Animals, Thermogenesis, Phylogeny, Uncoupling Protein 1

Abstract

In the last 300 thousand years, the genus

Published

2023

7. Stomatal density in Pinus sylvestris as an indicator of temperature rather than CO 2 : Evidence from a pan‐European transect

Author

Dominik Tomaszewski, Tomasz P. Wyka, Anna J. Jasinska, Marcin Zadworny, Roma Żytkowiak, Darius Danusevičius, Sławomir Marek, Monika Dering, Krystyna Boratyńska, and Jacek Oleksyn

Subjects

Provenance, biology, Physiology, Range (biology), Global warming, Scots pine, Paleoecology, Plant Science, Physical geography, biology.organism_classification, Proxy (statistics), Transect, Intraspecific competition

Abstract

The commonly observed negative relationship between stomatal density (SD) and atmospheric CO2 has led to SD being proposed as an indicator of atmospheric CO2 concentration. The use of SD as a proxy for CO2 , however, has been hampered by an insufficient understanding of the intraspecific variation of this trait. We hypothesized that SD in Pinus sylvestris, a widely distributed conifer, varies geographically and that this variation is determined by major climatic variables. By sampling needles from naturally growing trees along a latitudinal range of 32.25°, equivalent to 13.7°C gradient of mean annual temperature (MAT) across Europe, we found that SD decreased from the warmest southern sites to the coldest sites in the north at a rate of 4 stomata per mm2 for each 1°C, with MAT explaining 44% of the variation. Additionally, samples from a provenance trial exhibited a positive relationship between SD and the MAT of the original localities, suggesting that high SD is an adaptation to warm temperature. Our study revealed one of the strongest intraspecific relationships between SD and climate in any woody species, supporting the utility of SD as a temperature, rather than direct CO2 , proxy. In addition, our results predict the response of SD to climate warming.

Published

2021

8. Evidence of selection in the uncoupling protein 1 gene region suggests local adaptation to solar irradiance in savannah monkeys ( Chlorocebus spp.)

Author

Christian M. Gagnon, Hannes Svardal, Anna J. Jasinska, Jennifer Danzy Cramer, Nelson B. Freimer, J. Paul Grobler, Trudy R. Turner, and Christopher A. Schmitt

Subjects

Chemistry, General Immunology and Microbiology, Human medicine, General Medicine, General Agricultural and Biological Sciences, Biology, General Biochemistry, Genetics and Molecular Biology, General Environmental Science

Abstract

In the last 300 thousand years, the genus Chlorocebus expanded from equatorial Africa into the southernmost latitudes of the continent, where colder climate was a probable driver of natural selection. We investigated population-level genetic variation in the mitochondrial uncoupling protein 1 ( UCP1 ) gene region—implicated in non-shivering thermogenesis (NST)—in 73 wild savannah monkeys from three taxa representing this southern expansion ( Chlorocebus pygerythrus hilgerti, Chlorocebus cynosuros and Chlorocebus pygerythrus pygerythrus ) ranging from Kenya to South Africa. We found 17 single nucleotide polymorphisms with extended haplotype homozygosity consistent with positive selective sweeps, 10 of which show no significant linkage disequilibrium with each other. Phylogenetic generalized least-squares modelling with ecological covariates suggest that most derived allele frequencies are significantly associated with solar irradiance and winter precipitation, rather than overall low temperatures. This selection and association with irradiance is demonstrated by a relatively isolated population in the southern coastal belt of South Africa. We suggest that sunbathing behaviours common to savannah monkeys, in combination with the strength of solar irradiance, may mediate adaptations to thermal stress via NST among savannah monkeys. The variants we discovered all lie in non-coding regions, some with previously documented regulatory functions, calling for further validation and research.

Published

2022

9. Evidence of selection in UCP1 gene region suggests local adaptation to irradiance rather than cold temperatures in savanna monkeys (Chlorocebus spp.)

Author

Christian M. Gagnon, Hannes Svardal, Anna J. Jasinska, Jennifer Danzy Cramer, Nelson B. Freimer, J. Paul Grobler, Trudy R. Turner, and Christopher A. Schmitt

Abstract

The genus Chlorocebus is widely distributed throughout sub-Saharan Africa, and in the last 300 thousand years expanded from equatorial Africa into the southernmost latitudes of the continent. In these new environments, colder climate was a likely driver of natural selection. We investigated population-level genetic variation in the mitochondrial uncoupling protein 1 (UCP1) gene region – implicated in non-shivering thermogenesis within brown/beige adipocytes – in 73 wild savanna monkeys from three taxa representing this southern expansion (C. pygerythrus hilgerti, C. cynosuros, C. p. pygerythrus) ranging from Kenya to South Africa. We found 17 SNPs with extended haplotype homozygosity consistent with positive selective sweeps, 10 of which show no significant LD with each other. Phylogenetic generalized least squares modeling with ecological covariates suggest that most derived allele frequencies are significantly associated with solar irradiance and winter precipitation, rather than overall low temperatures. This selection and association with irradiance appears to be driven by a population isolate in the southern coastal belt of South Africa. We suggest that sunbathing behaviors common to savanna monkeys, in combination with strength of solar irradiance, may mediate adaptations to thermal stress via non-shivering thermogenesis among savanna monkeys. The variants we discovered all lie in non-coding regions, some with previously documented regulatory functions, calling for further validation and research.

Published

2022

10. Immunosuppressive effect and global dysregulation of blood transcriptome in response to psychosocial stress in vervet monkeys (Chlorocebus sabaeus)

Author

Ivona Pandrea, James D. Jentsch, Cassandra Benjamin, Nelson B. Freimer, Jen Chieh Lee, Tianyu He, Maurice Newton, Anna J. Jasinska, and Giovanni Coppola

Subjects

0301 basic medicine, CD4-Positive T-Lymphocytes, Neutrophils, Down-Regulation, lcsh:Medicine, Biology, medicine.disease_cause, Stress, Article, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Immune system, Downregulation and upregulation, Clinical Research, Behavioral and Social Science, Chlorocebus aethiops, medicine, Genetics, 2.1 Biological and endogenous factors, Animals, Platelet activation, Vervet monkey, Longitudinal Studies, Aetiology, lcsh:Science, Multidisciplinary, Inflammatory and immune system, Stressor, lcsh:R, Immune dysregulation, biology.organism_classification, Up-Regulation, 030104 developmental biology, Mental Health, Good Health and Well Being, Immunology, Behavioural genetics, Psychological, Cytokines, lcsh:Q, Chemokines, Psychosocial, Stress and resilience, 030217 neurology & neurosurgery, Biomarkers, Stress, Psychological

Abstract

Psychosocial stressors - life events that challenge social support and relationships - represent powerful risk factors for human disease; included amongst these events are relocation, isolation and displacement. To evaluate the impact of a controlled psychosocial stressor on physiology and underlying molecular pathways, we longitudinally studied the influence of a 28-day period of quarantine on biomarkers of immune signalling, microbial translocation, glycaemic health and blood transcriptome in the wild-born vervet monkey. This event caused a coordinated, mostly transient, reduction of circulating levels of nine immune signalling molecules. These were paralleled by a massive dysregulation of blood transcriptome, including genes implicated in chronic pathologies and immune functions. Immune and inflammatory functions were enriched among the genes downregulated in response to stress. An upregulation of genes involved in blood coagulation, platelet activation was characteristic of the rapid response to stress induction. Stress also decreased neutrophils and increased CD4 + T cell proportions in blood. This model of psychosocial stress, characterised by an immune dysregulation at the transcriptomic, molecular and cellular levels, creates opportunities to uncover the underlying mechanisms of stress-related diseases with an immune component, including cardiovascular diseases and susceptibility to infections.

Published

2020

11. Transcriptomic Analysis of Cell-free Fetal RNA in the Amniotic Fluid of Vervet Monkeys (Chlorocebus sabaeus)

Author

Kylie Kavanagh, Dalar Rostamian, Anna J. Jasinska, and Ashley T. Davis

Subjects

Fetus, Amniotic fluid, General Veterinary, medicine.diagnostic_test, Embryogenesis, RNA, Biology, General Biochemistry, Genetics and Molecular Biology, Transcriptome, Andrology, Gene expression, Amniocentesis, medicine, Gene

Abstract

NHP are important translational models for understanding the genomic underpinnings of growth, development, fetal programming, and predisposition to disease, with potential for the development of early health biomarkers. Understanding how prenatal gene expression is linked to pre- and postnatal health and development requires methods for assessing the fetal transcriptome. Here we used RNAseq methodology to analyze the expression of cell-free fetal RNA in the amniotic fluid supernatant (AFS) of vervet monkeys. Despite the naturally high level of degradation of free-floating RNA, we detected more than 10,000 gene transcripts in vervet AFS. The most highly expressed genes were H19, IGF2, and TPT1, which are involved in embryonic growth and glycemic health. We noted global similarities in expression profiles between vervets and humans, with genes involved in embryonic growth and glycemic health among the genes most highly expressed in AFS. Our study demonstrates both the feasibility and usefulness of prenatal transcriptomic profiles, by using amniocentesis procedures to obtain AFS and cell-free fetal RNA from pregnant vervets.

Published

2020

12. CCR5 as a Coreceptor for Human Immunodeficiency Virus and Simian Immunodeficiency Viruses: A Prototypic Love-Hate Affair

Author

Anna J. Jasinska, Ivona Pandrea, and Cristian Apetrei

Subjects

human immunodeficiency virus, Receptors, CCR5, viruses, Immunology, delta 32, virus diseases, sooty mangabey, RC581-607, Cell Line, HIV-1, Immunology and Allergy, Humans, Simian Immunodeficiency Virus, Immunologic diseases. Allergy, CCR5, red-capped mangabey

Abstract

CCR5, a chemokine receptor central for orchestrating lymphocyte/cell migration to the sites of inflammation and to the immunosurveillance, is involved in the pathogenesis of a wide spectrum of health conditions, including inflammatory diseases, viral infections, cancers and autoimmune diseases. CCR5 is also the primary coreceptor for the human immunodeficiency viruses (HIVs), supporting its entry into CD4+ T lymphocytes upon transmission and in the early stages of infection in humans. A natural loss-of-function mutation CCR5-Δ32, preventing the mutated protein expression on the cell surface, renders homozygous carriers of the null allele resistant to HIV-1 infection. This phenomenon was leveraged in the development of therapies and cure strategies for AIDS. Meanwhile, over 40 African nonhuman primate species are long-term hosts of simian immunodeficiency virus (SIV), an ancestral family of viruses that give rise to the pandemic CCR5 (R5)-tropic HIV-1. Many natural hosts typically do not progress to immunodeficiency upon the SIV infection. They have developed various strategies to minimize the SIV-related pathogenesis and disease progression, including an array of mechanisms employing modulation of the CCR5 receptor activity: (i) deletion mutations abrogating the CCR5 surface expression and conferring resistance to infection in null homozygotes; (ii) downregulation of CCR5 expression on CD4+ T cells, particularly memory cells and cells at the mucosal sites, preventing SIV from infecting and killing cells important for the maintenance of immune homeostasis, (iii) delayed onset of CCR5 expression on the CD4+ T cells during ontogenetic development that protects the offspring from vertical transmission of the virus. These host adaptations, aimed at lowering the availability of target CCR5+ CD4+ T cells through CCR5 downregulation, were countered by SIV, which evolved to alter the entry coreceptor usage toward infecting different CD4+ T-cell subpopulations that support viral replication yet without disruption of host immune homeostasis. These natural strategies against SIV/HIV-1 infection, involving control of CCR5 function, inspired therapeutic approaches against HIV-1 disease, employing CCR5 coreceptor blocking as well as gene editing and silencing of CCR5. Given the pleiotropic role of CCR5 in health beyond immune disease, the precision as well as costs and benefits of such interventions needs to be carefully considered.

Published

2021

13. DNA methylation age analysis of rapamycin in common marmosets

Author

Ken Raj, Ake T. Lu, Adam B. Salmon, Julie A. Mattison, Steve Horvath, Anna J. Jasinska, Joseph A. Zoller, and Amin Haghani

Subjects

endocrine system, Aging, animal structures, Epigenetic clock, Development, Epigenesis, Genetic, Mice, Biomarkers of aging, Genetic, biology.animal, Chlorocebus aethiops, Genetics, Animals, Primate, Epigenetics, Sirolimus, DNA methylation, biology, Marmoset, Callithrix, Methylation, biology.organism_classification, Macaca mulatta, body regions, Age estimation, Evolutionary biology, Original Article, Geriatrics and Gerontology, Epigenesis

Abstract

Human DNA methylation data have previously been used to develop highly accurate biomarkers of aging (“epigenetic clocks”). Subsequent studies demonstrate that similar epigenetic clocks can also be developed for mice and many other mammals. Here, we describe epigenetic clocks for common marmosets (Callithrix jacchus) based on novel DNA methylation data generated from highly conserved mammalian CpGs that were profiled using a custom Infinium array (HorvathMammalMethylChip40). From these, we developed and present here two epigenetic clocks for marmosets that are applicable to whole blood samples. We find that the human-marmoset clock for relative age exhibits moderately high age correlations in two other non-human primate species: vervet monkeys and rhesus macaques. In a separate cohort of marmosets, we tested whether intervention with rapamycin, a drug shown to extend lifespan in mice, would alter the epigenetic age of marmosets, as measured by the marmoset epigenetic clocks. These clocks did not detect significant effects of rapamycin on the epigenetic age of marmoset blood. The common marmoset stands out from other mammals in that it is not possible to build accurate estimators of sex based on DNA methylation data: the accuracy of a random forest predictor of sex (66%) was substantially lower than that observed for other mammals (which is close to 100%). Overall, the epigenetic clocks developed here for the common marmoset are expected to be useful for age estimation of wild-born animals and for anti-aging studies in this species. Supplementary Information The online version contains supplementary material available at 10.1007/s11357-021-00438-7.

Published

2021

14. Epigenetic clock and methylation studies in vervet monkeys

Author

Caesar Z. Li, Amin Haghani, Joseph DeYoung, Roger P. Woods, Julie A. Mattison, Andrew W. Rao, Oi-Wa Choi, Xinmin Li, Adriana Arneson, Jason Ernst, Joseph A. Zoller, Matthew J. Jorgensen, Giovanni Coppola, Kylie Kavanagh, Anna J. Jasinska, Steve Horvath, Nelson B. Freimer, and Kevin Wojta

Subjects

Epigenomics, Mammals, Aging, biology, animal diseases, Longevity, Methylation, DNA Methylation, biology.organism_classification, Macaca mulatta, Epigenesis, Genetic, Rhesus macaque, CpG site, Biomarkers of aging, Evolutionary biology, biology.animal, parasitic diseases, DNA methylation, Chlorocebus aethiops, Animals, Primate, Vervet monkey, Epigenetics, Geriatrics and Gerontology

Abstract

DNA methylation-based biomarkers of aging have been developed for many mammals but not yet for the vervet monkey (Chlorocebus sabaeus), which is a valuable non-human primate model for biomedical studies. We generated novel DNA methylation data from vervet cerebral cortex, blood, and liver using highly conserved mammalian CpGs represented on a custom array (HorvathMammalMethylChip40). We present six DNA methylation-based estimators of age: vervet multi-tissue epigenetic clock and tissue-specific clocks for brain cortex, blood, and liver. In addition, we developed two dual species clocks (human-vervet clocks) for measuring chronological age and relative age, respectively. Relative age was defined as ratio of chronological age to maximum lifespan to address the species differences in maximum lifespan. The high accuracy of the human-vervet clocks demonstrates that epigenetic aging processes are evolutionary conserved in primates. When applying these vervet clocks to tissue samples from another primate species, rhesus macaque, we observed high age correlations but strong offsets. We characterized CpGs that correlate significantly with age in the vervet. CpG probes that gain methylation with age across tissues were located near the targets of Polycomb proteins SUZ12 and EED and genes possessing the trimethylated H3K27 mark in their promoters. The epigenetic clocks are expected to be useful for anti-aging studies in vervets.

Published

2021

15. Epigenetic predictors of maximum lifespan and other life history traits in mammals

Author

Caesar Z. Li, Amin Haghani, Todd R. Robeck, Diego Villar, Ake T. Lu, Joshua Zhang, Chris G. Faulkes, Ha Vu, Julia Ablaeva, Danielle M. Adams, Reza Ardehali, Adriana Arneson, C. Scott Baker, Katherine Belov, Daniel T. Blumstein, Eleanor K. Bors, Charles E. Breeze, Robert T. Brooke, Janine L. Brown, Alex Caulton, Julie M. Cavin, Ioulia Chatzistamou, Hao Chen, Priscila Chiavellini, Oi-Wa Choi, Shannon Clarke, Joseph DeYoung, Candice K. Emmons, Stephan Emmrich, Zhe Fei, Steven H. Ferguson, Carrie J. Finno, Jennifer E. Flower, Jean-Michel Gaillard, Eva Garde, Vadim N. Gladyshev, Rodolfo G. Goya, M. Bradley Hanson, Martin Haulena, Kelsey Herrick, Andrew N. Hogan, Carolyn J. Hogg, Timothy A. Hore, Anna J. Jasinska, Gareth Jones, Eve Jourdain, Olga Kashpur, Harold Katcher, Etsuko Katsumata, Vimala Kaza, Hippokratis Kiaris, Michael S. Kobor, Pawel Kordowitzki, William R. Koski, Brenda Larison, Sang-Goo Lee, Marianne Lehmann, Jean-Francois Lemaitre, Andrew J. Levine, Cun Li, Xinmin Li, David TS Lin, Dana M. Lindemann, Nicholas Macoretta, Dewey Maddox, Craig O. Matkin, Julie A. Mattison, June Mergl, Jennifer J. Meudt, Gisele A. Montano, Khyobeni Mozhui, Asieh Naderi, Martina Nagy, Pritika Narayan, Peter W. Nathanielsz, Ngoc B. Nguyen, Christof Niehrs, Duncan T Odom, Alexander G. Ophir, Elaine A. Ostrander, Perrie O'Tierney Ginn, Kim M. Parsons, Kimberly C. Paul, Matteo Pellegrini, Gabriela M. Pinho, Jocelyn Plassais, Natalia A. Prado, Benjamin Rey, Beate R. Ritz, Jooke Robbins, Magdalena Rodriguez, Jennifer Russell, Elena Rydkina, Lindsay L. Sailer, Adam B. Salmon, Akshay Sanghavi, Kyle M. Schachtschneider, Dennis Schmitt, Lars Schomacher, Lawrence B. Schook, Karen E. Sears, Ashley W. Seifert, Anastasia V. Shindyapina, Kavita Singh, Ishani Sinha, Russel G. Snell, Elham Soltanmohammadi, Matthew L. Spangler, Maria Spriggs, Karen J. Steinman, Victoria J. Sugrue, Balazs Szladovits, Masaki Takasugi, Emma C. Teeling, Bill Van Bonn, Sonja C. Vernes, Harry V. Vinters, Mary C. Wallingford, Nan Wang, Gerald S. Wilkinson, Robert W. Williams, X. William Yang, Brent G. Young, Bohan Zhang, Zhihui Zhang, Peng Zhao, Yang Zhao, Wanding Zhou, Joseph A. Zoller, Jason Ernst, Andrei Seluanov, Ken Raj, Vera Gorbunova, and Steve Horvath

Subjects

Evolutionary biology, media_common.quotation_subject, DNA methylation, Longevity, Sexual maturity, Epigenetics, Methylation, Biology, Breed, Life history theory, Bivalent chromatin, media_common

Abstract

Maximum lifespan of a species is the oldest that individuals can survive, reflecting the genetic limit of longevity in an ideal environment. Here we report methylation-based models that accurately predict maximum lifespan (r=0.89), gestational time (r=0.96), and age at sexual maturity (r=0.87), using cytosine methylation patterns collected from over 12,000 samples derived from 192 mammalian species. Our epigenetic maximum lifespan predictor corroborated the extended lifespan in growth hormone receptor knockout mice and rapamycin treated mice. Across dog breeds, epigenetic maximum lifespan correlates positively with breed lifespan but negatively with breed size. Lifespan-related cytosines are located in transcriptional regulatory regions, such as bivalent chromatin promoters and polycomb-repressed regions, which were hypomethylated in long-lived species. The epigenetic estimators of maximum lifespan and other life history traits will be useful for characterizing understudied species and for identifying interventions that extend lifespan.

Published

2021

16. Pan-primate DNA methylation clocks

Author

Anna J. Jasinska, Beate Ritz, Cun Li, Markus Horvath, Susan Jenkins, Joseph A. Zoller, Todd R. Robeck, Jason Ernst, Ken Raj, Matteo Pellegrini, Julie A. Mattison, Peter W. Nathanielsz, Erin Ehmke, Steve Horvath, Maria Spriggs, Adam B. Salmon, Ake T. Lu, Kimberly C. Paul, and Amin Haghani

Subjects

Cerebellum, biology, Lemur, biology.organism_classification, Rhesus macaque, medicine.anatomical_structure, Cerebral cortex, Evolutionary biology, biology.animal, DNA methylation, medicine, Primate, Epigenetics, Baboon

Abstract

DNA methylation data have been successfully used to develop highly accurate estimators of age (“epigenetic clocks”) in many mammalian species. With a view of extending such epigenetic clocks to all primate species, we analyzed DNA methylation profiles of 2400 tissues derived from 37 primate species including 11 haplorhine species (baboons, marmosets, vervets, rhesus macaque, chimpanzees, gorillas, orangutan, humans) and 26 strepsirrhine species (suborders Lemuriformes and Lorisiformes). From these we present here, pan-primate epigenetic clocks which are highly accurate for all primates including humans (age correlation R=0.98). We also carried out in-depth analysis of baboon DNA methylation profiles and generated five epigenetic clocks for baboons (Olive-yellow baboon hybrid), one of which, the pan-tissue epigenetic clock, was trained on seven tissue types (fetal cerebral cortex, adult cerebral cortex, cerebellum, adipose, heart, liver, and skeletal muscle) with ages ranging from late fetal life to 22.8 years of age. To facilitate translation of findings in baboons to humans, we further constructed two dual-species, human-baboon clocks. We also identified and present here, epigenetic predictors of sex that apply to all primate species. Low overlap can be observed between age- and sex-related CpGs. Overall, this study advances our understanding of conserved age- and sex-related epigenetic changes in primates, and provides biomarkers to study the aging of all primate species with the facility to readily translate any findings between primate species.

Published

2020

17. DNA methylation age analysis of rapamycin in common marmosets

Author

Steve Horvath, Ake T. Lu, Anna J. Jasinska, Joseph A. Zoller, Julie A. Mattison, Ken Raj, Adam B. Salmon, and Amin Haghani

Subjects

endocrine system, animal structures, biology, Marmoset, Methylation, biology.organism_classification, Callithrix, body regions, Biomarkers of aging, Evolutionary biology, Age estimation, biology.animal, DNA methylation, Primate, Epigenetics

Abstract

Human DNA methylation data have previously been used to develop highly accurate biomarkers of aging (“epigenetic clocks”). Subsequent studies demonstrate that similar epigenetic clocks can also be developed for mice and many other mammals. Here, we describe epigenetic clocks for common marmosets (Callithrix jacchus) based on novel DNA methylation data generated from highly conserved mammalian CpGs that were profiled using a custom Infinium array (HorvathMammalMethylChip40). From these, we developed and present here, two epigenetic clocks for marmosets that are applicable to whole blood samples. We find that the human-marmoset clock for relative age exhibits moderately high age correlations in two other non-human primate species: vervet monkeys and rhesus macaques. In a separate cohort of marmosets, we tested whether intervention with rapamycin, a drug shown to extend lifespan in mice, would alter the epigenetic age of marmosets, as measured by the marmoset epigenetic clocks. These clocks did not detect significant effects of rapamycin on the epigenetic age of marmoset blood. The common marmoset stands out from other mammals in that it is not possible to build accurate estimators of sex based on DNA methylation data: the accuracy of a random forest predictor of sex (66%) was substantially lower than that observed for other mammals (which is close to 100%). Overall, the epigenetic clocks developed here for the common marmoset are expected to be useful for age estimation of wild-born animals and for anti-aging studies in this species.

Published

2020

18. Shifts in microbial diversity, composition, and functionality in the gut and genital microbiome during a natural SIV infection in vervet monkeys

Author

Trudy R. Turner, Jonathan P. Jacobs, Willem G. Coetzer, Nelson B. Freimer, Dongzhu Ma, Christopher A. Schmitt, Venu Lagishetty, Jennifer Danzy Cramer, William Katzka, J. Paul Grobler, Anna J. Jasinska, Tien S. Dong, Ivona Pandrea, and Cristian Apetrei

Subjects

Male, animal diseases, Simian Acquired Immunodeficiency Syndrome, medicine.disease_cause, Feces, Geographic site, Chlorocebus aethiops, Prevotella, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, 0303 health sciences, Ecology, Microbiota, Monkey Diseases, Gastrointestinal Microbiome, Simian immunodeficiency virus, Infectious Diseases, SIV, Medical Microbiology, Vagina, lcsh:QR100-130, HIV/AIDS, Simian Immunodeficiency Virus, Female, Enterotype, Infection, Microbiology (medical), Biology, Microbiology, lcsh:Microbial ecology, 03 medical and health sciences, Immune system, Microbial ecology, Proteobacteria, Succinivibrio, Genetics, medicine, Animals, Microbiome, 030304 developmental biology, Bacteria, Primate, 030306 microbiology, Research, Prevention, Rectum, Acute infection, biology.organism_classification, Good Health and Well Being

Abstract

BackgroundThe microbiota plays an important role in HIV pathogenesis in humans. Microbiota can impact health through several pathways such as increasing inflammation in the gut, metabolites of bacterial origin, and microbial translocation from the gut to the periphery which contributes to systemic chronic inflammation and immune activation and the development of AIDS. Unlike HIV-infected humans, SIV-infected vervet monkeys do not experience gut dysfunction, microbial translocation, and chronic immune activation and do not progress to immunodeficiency. Here, we provide the first reported characterization of the microbial ecosystems of the gut and genital tract in a natural nonprogressing host of SIV, wild vervet monkeys from South Africa.ResultsWe characterized fecal, rectal, vaginal, and penile microbiomes in vervets from populations heavily infected with SIV from diverse locations across South Africa. Geographic site, age, and sex affected the vervet microbiome across different body sites. Fecal and vaginal microbiome showed marked stratification with three enterotypes in fecal samples and two vagitypes, which were predicted functionally distinct within each body site. External bioclimatic factors, biome type, and environmental temperature influenced microbiomes locally associated with vaginal and rectal mucosa. Several fecal microbial taxa were linked to plasma levels of immune molecules, for example, MIG was positively correlated withLactobacillusandEscherichia/ShigellaandHelicobacter, and IL-10 was negatively associated with Erysipelotrichaceae, Anaerostipes, Prevotella, and Anaerovibrio, and positively correlated with Bacteroidetes and Succinivibrio. During the chronic phase of infection, we observed a significant increase in gut microbial diversity, alterations in community composition (including a decrease in Proteobacteria/Succinivibrio in the gut) and functionality (including a decrease in genes involved in bacterial invasion of epithelial cells in the gut), and partial reversibility of acute infection-related shifts in microbial abundance observed in the fecal microbiome. As part of our study, we also developed an accurate predictor of SIV infection using fecal samples.ConclusionsThe vervets infected with SIV and humans infected with HIV differ in microbial responses to infection. These responses to SIV infection may aid in preventing microbial translocation and subsequent disease progression in vervets, and may represent host microbiome adaptations to the virus.

Published

2020

19. Epigenetic clock and methylation studies in the rhesus macaque

Author

Jason Ernst, Charles E. Breeze, Kelli L. Vaughan, Joseph A. Zoller, Julie A. Mattison, Anna J. Jasinska, Steve Horvath, Amin Haghani, and Ken Raj

Subjects

Epigenomics, Aging, Epigenetic clock, Adipose tissue, Macaque, Epigenesis, Genetic, Promoter Regions, Genetic, Nonhuman primate, biology.animal, Chlorocebus aethiops, Genetics, Animals, Epigenetics, Vervet monkey, Promoter Regions, Genetic, DNA methylation, biology, Chlorocebus, Methylation, biology.organism_classification, Macaca mulatta, Rhesus macaque, CpG site, Evolutionary biology, Rhesus monkey, Original Article, Geriatrics and Gerontology, Epigenesis

Abstract

Methylation levels at specific CpG positions in the genome have been used to develop accurate estimators of chronological age in humans, mice, and other species. Although epigenetic clocks are generally species-specific, the principles underpinning them appear to be conserved at least across the mammalian class. This is exemplified by the successful development of epigenetic clocks for mice and several other mammalian species. Here, we describe epigenetic clocks for the rhesus macaque (Macaca mulatta), the most widely used nonhuman primate in biological research. Using a custom methylation array (HorvathMammalMethylChip40), we profiled n=281 tissue samples (blood, skin, adipose, kidney, liver, lung, muscle, and cerebral cortex). From these data, we generated five epigenetic clocks for macaques. These clocks differ with regards to applicability to different tissue types (pan-tissue, blood, skin), species (macaque only or both humans and macaques), and measure of age (chronological age versus relative age). Additionally, the age-based human-macaque clock exhibits a high age correlation (R=0.89) with the vervet monkey (Chlorocebus sabaeus), another Old World species. Four CpGs within the KLF14 promoter were consistently altered with age in four tissues (adipose, blood, cerebral cortex, skin). It is expected that the macaque clocks will reveal an epigenetic aging rate associated with a host of health conditions and thus lend themselves for identifying and validating anti-aging interventions.

Published

2020

20. Epigenetic clock and methylation studies in vervet monkeys

Author

Andrew W. Rao, Adriana Arneson, Kevin Wojta, Caesar Z. Li, Joseph A. Zoller, Kylie Kavanagh, Nelson B. Freimer, Joseph DeYoung, Anna J. Jasinska, Matthew J. Jorgensen, Giovanni Coppola, Steve Horvath, Amin Haghani, Roger P. Woods, Oi-Wa Choi, Xinmin Li, Julie A. Mattison, and Jason Ernst

Subjects

biology, animal diseases, Methylation, biology.organism_classification, Rhesus macaque, CpG site, Biomarkers of aging, Evolutionary biology, biology.animal, parasitic diseases, DNA methylation, Primate, Vervet monkey, Epigenetics

Abstract

DNA methylation-based biomarkers of aging have been developed for many mammals but not yet for the vervet monkey (Chlorocebus sabaeus), which is a valuable non-human primate model for biomedical studies. We generated novel DNA methylation data from vervet cerebral cortex, blood, and liver using highly conserved mammalian CpGs represented on a custom array (HorvathMammalMethylChip40). We present six DNA methylation-based estimators of age: vervet multi-tissue epigenetic clock and tissue-specific clocks for brain cortex, blood, and liver. In addition, two dual species clocks (human-vervet clocks) for measuring chronological age and relative age, respectively. Relative age was defined as ratio of chronological age to maximum lifespan to address the species differences in maximum lifespan. The high accuracy of the human-vervet clocks demonstrates that epigenetic aging processes are evolutionary conserved in primates. When applying these vervet clocks to tissue samples from another primate species, rhesus macaque, we observed high age correlations but strong offsets. We characterized CpGs that correlate significantly with age in the vervet. CpG probes hypermethylated with age across tissues were located near the targets of Polycomb proteins SUZ12 and EED, and genes possessing the trimethylated H3K27 mark in their promoters.The epigenetic clocks are expected to be useful for age estimation of wild-born animals and anti-aging studies in vervets.

Published

2020

21. Transcriptomic Analysis of Cell-free Fetal RNA in the Amniotic Fluid of Vervet Monkeys (

Author

Anna J, Jasinska, Dalar, Rostamian, Ashley T, Davis, and Kylie, Kavanagh

Subjects

Fetal Development, Pregnancy, Gene Expression Profiling, Chlorocebus aethiops, Amniocentesis, Animals, Gene Expression, Tumor Protein, Translationally-Controlled 1, Female, Amniotic Fluid, Cell-Free Nucleic Acids, Original Research

Abstract

NHP are important translational models for understanding the genomic underpinnings of growth, development, fetal programming, and predisposition to disease, with potential for the development of early health biomarkers. Understanding how prenatal gene expression is linked to pre- and postnatal health and development requires methods for assessing the fetal transcriptome. Here we used RNAseq methodology to analyze the expression of cell-free fetal RNA in the amniotic fluid supernatant (AFS) of vervet monkeys. Despite the naturally high level of degradation of free-floating RNA, we detected more than 10,000 gene transcripts in vervet AFS. The most highly expressed genes were H19, IGF2, and TPT1, which are involved in embryonic growth and glycemic health. We noted global similarities in expression profiles between vervets and humans, with genes involved in embryonic growth and glycemic health among the genes most highly expressed in AFS. Our study demonstrates both the feasibility and usefulness of prenatal transcriptomic profiles, by using amniocentesis procedures to obtain AFS and cell-free fetal RNA from pregnant vervets.

Published

2020

22. ACE2 and TMPRSS2 variation in savanna monkeys (Chlorocebus spp.): Potential risk for zoonotic/anthroponotic transmission of SARS-CoV-2 and a potential model for functional studies

Author

J. Paul Grobler, Anna J. Jasinska, Felicity J. Burt, Christina M. Bergey, Trudy R. Turner, Christopher A. Schmitt, Nelson B. Freimer, Hannes Svardal, Matthew J. Jorgensen, Vasily Ramensky, and Sestak, Karol

Subjects

0301 basic medicine, RNA viruses, Pulmonology, Coronaviruses, Plant Science, Monkeys, medicine.disease_cause, Macaque, Chlorocebus aethiops, Geographical locations, COVID-19, Grasslands, Caribbean, Respiratory infections, Zoonoses, SARS, Coronavirus, Primates, Medicine and Health Sciences, Primate, Viral, Lung, Pathology and laboratory medicine, Genetics, Mammals, Multidisciplinary, biology, Ecology, 05 social sciences, Serine Endopeptidases, Eukaryota, Medical microbiology, Terrestrial Environments, Spike Glycoprotein, Infectious Diseases, Spike Glycoprotein, Coronavirus, Vertebrates, Viruses, Pneumonia & Influenza, Medicine, Angiotensin-Converting Enzyme 2, Disease Susceptibility, Pathogens, Infection, Coronavirus Infections, Engineering sciences. Technology, Research Article, SARS coronavirus, General Science & Technology, Science, Pneumonia, Viral, Peptidyl-Dipeptidase A, Microbiology, Virus, Vaccine Related, 03 medical and health sciences, Betacoronavirus, biology.animal, Old World monkeys, medicine, Animals, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Plant Communities, Pandemics, Whole Genome Sequencing, SARS-CoV-2, Prevention, Chlorocebus, Plant Ecology, Ecology and Environmental Sciences, Organisms, Viral pathogens, Primate Diseases, Biology and Life Sciences, Pneumonia, biology.organism_classification, Microbial pathogens, Emerging Infectious Diseases, 030104 developmental biology, Amniotes, Respiratory Infections, North America, People and places

Abstract

The COVID-19 pandemic, caused by the coronavirus SARS-CoV-2, has devastated health infrastructure around the world. Both ACE2 (an entry receptor) and TMPRSS2 (used by the virus for spike protein priming) are key proteins to SARS-CoV-2 cell entry, enabling progression to COVID-19 in humans. Comparative genomic research into critical ACE2 binding sites, associated with the spike receptor binding domain, has suggested that Old World primates may also be susceptible to disease from SARS-CoV-2 infection. Savanna monkeys (Chlorocebus spp.) are a widespread non-human primate with well-established potential as a bi-directional zoonotic/anthroponotic agent due to high levels of human interaction throughout their range in sub-Saharan Africa and the Caribbean. To characterize potential functional variation in savanna monkey ACE2 and TMPRSS2, we inspected recently published genomic data from 245 savanna monkeys, including 163 wild monkeys from Africa and the Caribbean and 82 captive monkeys from the Vervet Research Colony (VRC). We found several missense variants. One missense variant in ACE2 (X:14,077,550; Asp30Gly), common in Ch. sabaeus, causes a change in amino acid residue that has been inferred to reduce binding efficiency of SARS-CoV-2, suggesting potentially reduced susceptibility. The remaining populations appear as susceptible as humans, based on these criteria for receptor usage. All missense variants observed in wild Ch. sabaeus populations are also present in the VRC, along with two splice acceptor variants (at X:14,065,076) not observed in the wild sample that are potentially disruptive to ACE2 function. The presence of these variants in the VRC suggests a promising model for SARS-CoV-2 infection and vaccine and therapy development. In keeping with a One Health approach, characterizing actual susceptibility and potential for bi-directional zoonotic/anthroponotic transfer in savanna monkey populations may be an important consideration for controlling COVID-19 epidemics in communities with frequent human/non-human primate interactions that, in many cases, may have limited health infrastructure.

Published

2020

23. Ancient hybridization and strong adaptation to viruses across African vervet monkey populations

Author

Nelson B. Freimer, Giovanni Coppola, Ken Dewar, Beatrice Jacquelin, George M. Weinstock, Magnus Nordborg, Wesley C. Warren, Richard K. Wilson, Trudy R. Turner, Cristian Apetrei, Michaela Müller-Trutwin, Christopher A. Schmitt, Hannes Svardal, Vasily Ramensky, Yu S. Huang, Martin Antonio, Anna J. Jasinska, and J. Paul Grobler

Subjects

CD4-Positive T-Lymphocytes, 0301 basic medicine, animal diseases, Simian Acquired Immunodeficiency Syndrome, medicine.disease_cause, Cercopithecus aethiops, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, Phylogenetics, Chlorocebus aethiops, Genetic variation, Genetics, medicine, Animals, Gene Regulatory Networks, Vervet monkey, Gene, Phylogeny, biology, Gene Expression Profiling, Genetic Variation, Simian immunodeficiency virus, biology.organism_classification, Adaptation, Physiological, Macaca mulatta, Gene Ontology, 030104 developmental biology, Evolutionary biology, Africa, Host-Pathogen Interactions, Sooty mangabey, Hybridization, Genetic, Simian Immunodeficiency Virus, Adaptation, 030217 neurology & neurosurgery

Abstract

Vervet monkeys are among the most widely distributed nonhuman primates, show considerable phenotypic diversity, and have long been an important biomedical model for a variety of human diseases and in vaccine research. Using whole-genome sequencing data from 163 vervets sampled from across Africa and the Caribbean, we find high diversity within and between taxa and clear evidence that taxonomic divergence was reticulate rather than following a simple branching pattern. A scan for diversifying selection across taxa identifies strong and highly polygenic selection signals affecting viral processes. Furthermore, selection scores are elevated in genes whose human orthologs interact with HIV and in genes that show a response to experimental simian immunodeficiency virus (SIV) infection in vervet monkeys but not in rhesus macaques, suggesting that part of the signal reflects taxon-specific adaptation to SIV.

Published

2017

24. Genetic variation and gene expression across multiple tissues and developmental stages in a non-human primate

Author

Matthew J. Jorgensen, Giovanni Coppola, Ken Dewar, George M. Weinstock, Emily S. W. Wong, Joseph DeYoung, Chiara Sabatti, Scott C. Fears, Wesley C. Warren, David J. Jentsch, Lynn A. Fairbanks, Richard K. Wilson, Christine B. Peterson, Nelson B. Freimer, Anna J. Jasinska, Eleazar Eskin, Jay R. Kaplan, Allison E. Furterer, John Blangero, Thomas D. Dyer, Ivette Zelaya, Diego Villar, Vasily Ramensky, Yu S. Huang, Oi Wa Choi, Rita M. Cantor, Hannes Svardal, Roger P. Woods, Marina Bogomolov, Christopher A. Schmitt, Bronwen Aken, Yoav Benjamini, Rishi Nag, and Paul Flicek

Subjects

0301 basic medicine, Genotype, Quantitative Trait Loci, Genome-wide association study, Locus (genetics), Hippocampal formation, Quantitative trait locus, Bioinformatics, Medical and Health Sciences, Polymorphism, Single Nucleotide, Article, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Gene expression, Genetic variation, Chlorocebus aethiops, Genetics, Animals, Humans, Vervet monkey, Polymorphism, 030304 developmental biology, 0303 health sciences, biology, Gene Expression Profiling, Human Genome, Brain, Genetic Variation, Single Nucleotide, Biological Sciences, biology.organism_classification, Gene expression profiling, 030104 developmental biology, Phenotype, Evolutionary biology, Expression quantitative trait loci, 030217 neurology & neurosurgery, Biotechnology, Developmental Biology, Genome-Wide Association Study

Abstract

By analyzing multi-tissue gene expression and genome-wide genetic variation data in samples from a vervet monkey pedigree, we generated a transcriptome resource and produced the first catalogue of expression quantitative trait loci (eQTLs) in a non-human primate model. This catalogue contains more genome-wide significant eQTLs, per sample, than comparable human resources, and reveals sex and age-related expression patterns. Findings include a master regulatory locus that likely plays a role in immune function, and a locus regulating hippocampal long non-coding RNAs (lncRNAs), whose expression correlates with hippocampal volume. This resource will facilitate genetic investigation of quantitative traits, including brain and behavioral phenotypes relevant to neuropsychiatric disorders.

Published

2017

25. The burden of deleterious variants in a non-human primate biomedical model

Author

Nelson B. Freimer, Anna J. Jasinska, Wesley C. Warren, Vasily Ramensky, Richard K. Wilson, Matthew J. Jorgensen, Giovanni Coppola, Ivette Zelaya, Hannes Svardal, Sandeep Deverasetty, J. Mark Cline, Jay R. Kaplan, and Anastasia Zharikova

Subjects

Whole genome sequencing, Genetics, 0303 health sciences, education.field_of_study, Non human primate, Population, Genome browser, Biology, Phenotype, DNA sequencing, 03 medical and health sciences, 0302 clinical medicine, Allele, education, Gene, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Genome sequencing studies of nonhuman primate (NHP) pedigree and population samples are discovering variants on a large and rapidly growing scale. These studies are increasing the utility of several NHP species as model systems for human disease. In particular, by identifying homozygous protein truncating variants (hPTVs) in genes hypothesized to play a role in causing human diseases, it may be possible to elucidate mechanisms for the phenotypic impact of such variants through investigations that are infeasible in humans. The Caribbean vervet (Chlorocebus aethiops sabaeus) is uniquely valuable for this purpose, as the dramatic expansion of its population following severe bottlenecks has enabled PTVs that passed through the bottleneck to attain a relatively high frequency. Using whole genome sequence (WGS) data from 719 monkeys of the Vervet Research Colony (VRC) extended pedigree, we found 2,802 protein-truncating alleles in 1,747 protein-coding genes present in homozygous state in at least one monkey. Polymorphic sites for 923 SNV hPTVs were also observed in natural Caribbean populations from which the VRC descends. The vervet genome browser (VGB) includes information on these PTVs, together with a catalog of phenotypes and biological samples available for monkeys who carry them. We describe initial explorations of the possible impact of vervet PTVs on early infant mortality.

Published

2019

26. Resources for functional genomic studies of health and development in nonhuman primates

Author

Anna J. Jasinska

Subjects

Whole genome sequencing, Primates, Genome evolution, Genome, dNaM, Genetic Variation, Computational biology, Genomics, Biology, Health, Anthropology, DNA methylation, Genetic variation, Expression quantitative trait loci, Animals, Anatomy, Functional genomics, Gene

Abstract

Primates display a wide range of phenotypic variation underlaid by complex genetically regulated mechanisms. The links among DNA sequence, gene function, and phenotype have been of interest from an evolutionary perspective, to understand functional genome evolution and its phenotypic consequences, and from a biomedical perspective to understand the shared and human-specific roots of health and disease. Progress in methods for characterizing genetic, transcriptomic, and DNA methylation (DNAm) variation is driving the rapid development of extensive omics resources, which are now increasingly available from humans as well as a growing number of nonhuman primates (NHPs). The fast growth of large-scale genomic data is driving the emergence of integrated tools and databases, thus facilitating studies of gene functionality across primates. This review describes NHP genomic resources that can aid in exploration of how genes shape primate phenotypes. It focuses on the gene expression trajectories across development in different tissues, the identification of functional genetic variation (including variants deleterious for protein function and regulatory variants modulating gene expression), and DNAm profiles as an emerging tool to understand the process of aging. These resources enable comparative functional genomics approaches to identify species-specific and primate-shared gene functionalities associated with health and development.

Published

2019

27. Biological Resources for Genomic Investigation in the Vervet Monkey (Chlorocebus)

Author

Anna J. Jasinska

Subjects

biology, Chlorocebus, Zoology, Vervet monkey, biology.organism_classification

Published

2019

28. Corpus luteum as a novel target of weight changes that contribute to impaired female reproductive physiology and function

Author

Nanette Santoro, Susan E. Appt, Satu Kuokkanen, Andrew P. Bradford, Justin Chosich, Anna J. Jasinska, Alex J. Polotsky, and Tzu L. Phang

Subjects

0301 basic medicine, medicine.medical_specialty, Urology, media_common.quotation_subject, Gene Expression, Neovascularization, Physiologic, Luteal phase, Biology, Weight Gain, Models, Biological, Article, Anovulation, 03 medical and health sciences, 0302 clinical medicine, Corpus Luteum, Weight loss, Internal medicine, Chlorocebus aethiops, Weight Loss, medicine, Animals, Vervet monkey, Menstrual Cycle, Progesterone, Menstrual cycle, media_common, 030219 obstetrics & reproductive medicine, biology.organism_classification, medicine.disease, Hormones, Gonadotropin secretion, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Reproductive Medicine, Female, medicine.symptom, Infertility, Female, Corpus luteum, Weight gain

Abstract

Obesity and malnutrition are associated with decreased fecundity in women. Impaired reproductive capacity in obese women is often attributed to anovulation. However, obese women with ovulatory cycles also have reduced fertility, but the etiology of their impaired reproduction is only partially understood. Accumulating evidence suggests that obesity directly impairs oocyte and embryo quality as well as endometrial receptivity. In obese women, urinary progesterone metabolite excretion is decreased, but in excess of what can be explained by suppressed gonadotropin secretion, suggesting that apart from its central effect obesity may directly affect progesterone (P4) production. These observations have led to the novel hypothesis that obesity directly affects corpus luteum (CL) function. Similarly, we hypothesize that weight loss may contribute to luteal dysfunction. Here, we propose a non-human primate model, the vervet monkey, to examine the effect of weight gain and loss on menstrual cycle parameters and CL gene expression. In this model, weight gain and loss did not significantly alter menstrual cyclicity; however, both induced alterations in the CL transcriptome. In the weight gain monkey, we observed that impaired mid-luteal P4 secretion was associated with downregulation of steroidogenic pathways in CL. Collectively, these preliminary findings support our hypothesis that weight gain and loss may contribute to CL dysfunction. The vervet model described and preliminary observations provide a basis for a larger study to address this important question. Understanding the mechanisms by which weight gain and loss contribute to reproductive dysfunction can assist in the development of targeted treatments to enhance women's reproductive capability when it is desired.CL: corpus luteum; P4: progesterone; E2: estradiol; PDG: pregnanediol 3-glucoronide; LH: luteinizing hormone; FSH: follicle-stimulating hormone; GnRH: gonadotropin releasing hormone; BMI: body mass index; qrtPCR: quantitative real-time PCR; PGR: progesterone receptor; ART: assisted reproductive technology; IVF: in vitro fertilization; HPO: hypothalamic-pituitary-ovarian axis; MMPs: matrix metalloproteinases Gene symbols: LH receptor (LHGCR); cholesterol side-chain cleavage enzyme (CYP11A1); 3 beta-hydroxysteroid dehydrogenase type II (HSD3B2); steroidogenic acute regulatory protein (STAR); LDL receptor (LDLR); scavenger receptor B1 (SCARB1); ATP-binding cassette sub-family A member 1 (ABCA1); ATP-binding cassette sub-family G member 1 (ABCG1); apolipoprotein A (APOA1); 24 dehydrocholesterol reductase (DHCR24); 3-hydroxy-3-methylglytaryl-CoA reductase (HMGCR); vascular endothelial growth factor A (VEGFA); vascular endothelial growth factor C (VEGFC); vascular endothelial growth factor receptor 1 (VEGFR1); and TIMP metallopeptidase inhibitor 1 (TIMP1); amphiregulin (AREG); epiregulin (EREG); CCAAT/enhancer binding protein alpha (CEBPBA); cAMP responsive element binding protein 3-like 1 (CREB3L1); ADAM metallopeptidase with thrombospodin type 1 motif 1 (ADAMTS1); matrix metallopeptidase 9 (MMP9); cytochrome b-245 beta polypeptide (CYBB or NOX2); NADH oxidase (NCF2 or NOXA2); Fc fragment of IgG receptor IIb (FCGR2B); Fc fragment of IgG receptor IIb (FCGR2C); ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1); RAB27A member RAS oncofamily (RAB27A); hydroxyprostaglandin dehydrogenase (HPGD); prostaglandin-endoperoxidase synthase 1 (PTGS1); integrin B2 (ITGB2); leukotriene A4 hydrolase (LTA4H); radixin (RDX); ezrin (EZR); nuclear receptor subfamily 5 group A member 2 (NR5A2).

Published

2016

29. Large-scale meta-analysis of mutations identified in panels of breast/ovarian cancer-related genes - Providing evidence of cancer predisposition genes

Author

Katarzyna Klonowska, Malwina Suszynska, Piotr Kozlowski, and Anna J. Jasinska

Subjects

0301 basic medicine, PALB2, Genes, BRCA2, Genes, BRCA1, Context (language use), Breast Neoplasms, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Germline mutation, CDKN2A, medicine, Humans, Genetic Predisposition to Disease, Mutation frequency, Gene, Genetics, Ovarian Neoplasms, business.industry, Obstetrics and Gynecology, medicine.disease, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Mutation, RAD51C, Female, business

Abstract

Objective Germline mutations occurring in the highly penetrant genes BRCA1 and BRCA2 are responsible for only certain cases of familial breast cancer (BC) and ovarian cancer (OC). Thus, the use of NGS multi-gene panel (MGP) testing has recently become very popular. Methods To estimate a reliable BC and OC risk associated with pathogenic variants in the selected candidate BC/OC predisposition genes, a comprehensive meta-analysis of 48 MGP-based studies analyzing BC/OC patients was conducted. The role of 37 genes was evaluated, comparing, in total, the mutation frequency in ~120,000 BC/OC cases and ~120,000 controls, which guaranteed strong statistical support with high confidence for most analyzed genes. Results We characterized the strategies of MGP analyses and the types and localizations of the identified mutations and showed that 13 and 11 of the analyzed genes were significantly associated with an increased BC and OC risk, respectively. The risk attributed to some of these genes (e.g., CDKN2A and PALB2 for BC) was similar to that observed for BRCA2. The analysis also showed a substantial difference in the profile of genes contributing to either BC or OC risk, including genes specifically associated with a high risk of OC but not BC (e.g., RAD51C, and RAD51D). Conclusions Our study provides strong statistical proof, defines the risk for many genes often considered candidates for BC/OC predisposition and excludes the role of other genes frequently analyzed in the MGPs. In the context of clinical diagnostics, the results support the knowledge-based interpretation of identified mutations.

Published

2018

30. Obesity and obesogenic growth are both highly heritable and modified by diet in a nonhuman primate model, the African green monkey (Chlorocebus aethiops sabaeus)

Author

Matthew J. Jorgensen, Christopher A. Schmitt, Rita M. Cantor, Nelson B. Freimer, Jay R. Kaplan, George M. Weinstock, John Blangero, Anna J. Jasinska, and Thomas D. Dyer

Subjects

0301 basic medicine, Male, Endocrinology, Diabetes and Metabolism, Medicine (miscellaneous), Genome-wide association study, Single-nucleotide polymorphism, Cardiovascular, Medical and Health Sciences, Oral and gastrointestinal, Cercopithecus aethiops, Education, 03 medical and health sciences, Endocrinology & Metabolism, Genetic linkage, biology.animal, Genetic model, Chlorocebus aethiops, medicine, Genetics, Animals, Primate, Obesity, Metabolic and endocrine, Nutrition, Cancer, Nutrition and Dietetics, biology, Animal, Human Genome, Body Weight, Heritability, medicine.disease, Diet, Stroke, Disease Models, Animal, 030104 developmental biology, Evolutionary biology, Disease Models, Original Article, Female, African Green Monkey, Waist Circumference

Abstract

Objective: In humans, the ontogeny of obesity throughout the life course and the genetics underlying it has been historically difficult to study. We compared, in a non-human primate model, the lifelong growth trajectories of obese and non-obese adults to assess the heritability of and map potential genomic regions implicated in growth and obesity. Study population: A total of 905 African green monkeys, or vervets (Chlorocebus aethiops sabaeus) (472 females, 433 males) from a pedigreed captive colony. Methods: We measured fasted body weight (BW), crown-to-rump length (CRL), body-mass index (BMI) and waist circumference (WC) from 2000 to 2015. We used a longitudinal clustering algorithm to detect obesogenic growth, and logistic growth curves implemented in nonlinear mixed effects models to estimate three growth parameters. We used maximum likelihood variance decomposition methods to estimate the genetic contributions to obesity-related traits and growth parameters, including a test for the effects of a calorie-restricted dietary intervention. We used multipoint linkage analysis to map implicated genomic regions. Results: All measurements were significantly influenced by sex, and with the exception of WC, also influenced by maternal and post-natal diet. Chronic obesity outcomes were significantly associated with a pattern of extended growth duration with slow growth rates for BW. After accounting for environmental influences, all measurements were found to have a significant genetic component to variability. Linkage analysis revealed several regions suggested to be linked to obesity-related traits that are also implicated in human obesity and metabolic disorders. Conclusions: As in humans, growth patterns in vervets have a significant impact on adult obesity and are largely under genetic control with some evidence for maternal and dietary programming. These results largely mirror findings from human research, but reflect shorter developmental periods, suggesting that the vervet offers a strong genetic model for elucidating the ontogeny of human obesity.

Published

2018

31. Zoonotic Potential of Simian Arteriviruses

Author

David H. O’Connor, Michael Lauck, Thomas C. Friedrich, Adam L. Bailey, Samuel D. Sibley, Anna J. Jasinska, Tony L. Goldberg, Jens H. Kuhn, Jeffrey Rogers, Cristian Apetrei, Nelson B. Freimer, Clifford J. Jolly, Jane E. Phillips-Conroy, Preston A. Marx, and Pierson, TC

Subjects

0301 basic medicine, Simian hemorrhagic fever virus, Arterivirus, viruses, Immunology, Viremia, Simian, Medical and Health Sciences, Microbiology, Macaque, Viral hemorrhagic fever, Vaccine Related, 03 medical and health sciences, Arterivirus Infections, Zoonoses, Virology, biology.animal, Genetics, medicine, Animals, Humans, 2.2 Factors relating to the physical environment, Aetiology, Agricultural and Veterinary Sciences, biology, Transmission (medicine), Prevention, Primate Diseases, Haplorhini, Biological Sciences, medicine.disease, biology.organism_classification, Vector-Borne Diseases, Infectious Diseases, Emerging Infectious Diseases, 030104 developmental biology, Insect Science, Minireview, Infection

Abstract

Wild nonhuman primates are immediate sources and long-term reservoirs of human pathogens. However, ethical and technical challenges have hampered the identification of novel blood-borne pathogens in these animals. We recently examined RNA viruses in plasma from wild African monkeys and discovered several novel, highly divergent viruses belonging to the family Arteriviridae . Close relatives of these viruses, including simian hemorrhagic fever virus, have caused sporadic outbreaks of viral hemorrhagic fever in captive macaque monkeys since the 1960s. However, arterivirus infection in wild nonhuman primates had not been described prior to 2011. The arteriviruses recently identified in wild monkeys have high sequence and host species diversity, maintain high viremia, and are prevalent in affected populations. Taken together, these features suggest that the simian arteriviruses may be “preemergent” zoonotic pathogens. If not, this would imply that biological characteristics of RNA viruses thought to facilitate zoonotic transmission may not, by themselves, be sufficient for such transmission to occur.

Published

2015

32. The cerebellum ages slowly according to the epigenetic clock

Author

José A. Riancho, Natalie S. Coles, Steve Horvath, L. Stephen Coles, Jennifer S. Woo, Ake T. Lu, Jonathan Braun, Spencer Tung, Oi-Wa Choi, Vei Mah, Harry V. Vinters, Anna J. Jasinska, and Universidad de Cantabria

Subjects

Adult, Aging, Cerebellum, Physiology, 1.1 Normal biological development and functioning, brain, Oncology and Carcinogenesis, Single-nucleotide polymorphism, centenarian, Epigenesis, Genetic, biomarker of aging, Transcriptome, Genetic, Clinical Research, 80 and over, Genetics, medicine, Humans, Epigenetics, Gene, Aged, Aged, 80 and over, epigenetics, biology, Human Genome, Helicase, Cell Biology, Middle Aged, Biomarker (cell), tissue aging, medicine.anatomical_structure, biology.protein, Generic health relevance, Biochemistry and Cell Biology, Centenarian, RNA Helicases, Epigenesis, Developmental Biology, Research Paper

Abstract

Studies that elucidate why some human tissues age faster than others may shed light on how we age, and ultimately suggest what interventions may be possible. Here we utilize a recent biomarker of aging (referred to as epigenetic clock) to assess the epigenetic ages of up to 30 anatomic sites from supercentenarians (subjects who reached an age of 110 or older) and younger subjects. Using three novel and three published human DNA methylation data sets, we demonstrate that the cerebellum ages more slowly than other parts of the human body. We used both transcriptional data and genetic data to elucidate molecular mechanisms which may explain this finding. The two largest superfamilies of helicases (SF1 and SF2) are significantly over-represented (p=9.2x10-9) among gene transcripts that are over-expressed in the cerebellum compared to other brain regions from the same subject. Furthermore, SNPs that are associated with epigenetic age acceleration in the cerebellum tend to be located near genes from helicase superfamilies SF1 and SF2 (enrichment p=5.8x10-3). Our genetic and transcriptional studies of epigenetic age acceleration support the hypothesis that the slow aging rate of the cerebellum is due to processes that involve RNA helicases. This study was supported by the National Institute of Health NIA/NIH 5R01AG042511-02 (S. Horvath). The generation of the bone data was supported by the Instituto de Salud Carlos III PI12-0615 (J.A. Riancho).

Published

2015

33. Neurodegenerative disease biomarkers Aβ

Author

Jason A, Chen, Scott C, Fears, Anna J, Jasinska, Alden, Huang, Noor B, Al-Sharif, Kevin E, Scheibel, Thomas D, Dyer, Anne M, Fagan, John, Blangero, Roger, Woods, Matthew J, Jorgensen, Jay R, Kaplan, Nelson B, Freimer, and Giovanni, Coppola

Subjects

Male, Aging, Genetic Linkage, Neuroimaging, tau Proteins, cerebrospinal fluid, vervet, Alzheimer Disease, Chlorocebus aethiops, Animals, tau, cerebral amyloid angiopathy, Original Research, Amyloid beta-Peptides, Monkey Diseases, Brain, Neurodegenerative Diseases, Organ Size, Alzheimer's disease, Chromosomes, Mammalian, Peptide Fragments, Pedigree, amyloid beta, Models, Animal, Female, Biomarkers, Genome-Wide Association Study

Abstract

Background The Caribbean vervet monkey (Chlorocebus aethiops sabaeus) is a potentially valuable animal model of neurodegenerative disease. However, the trajectory of aging in vervets and its relationship to human disease is incompletely understood. Methods To characterize biomarkers associated with neurodegeneration, we measured cerebrospinal fluid (CSF) concentrations of Aβ1–40, Aβ1–42, total tau, and p‐tau181 in 329 members of a multigenerational pedigree. Linkage and genome‐wide association were used to elucidate a genetic contribution to these traits. Results Aβ1–40 concentrations were significantly correlated with age, brain total surface area, and gray matter thickness. Levels of p‐tau181 were associated with cerebral volume and brain total surface area. Among the measured analytes, only CSF Aβ1–40 was heritable. No significant linkage (LOD > 3.3) was found, though suggestive linkage was highlighted on chromosomes 4 and 12. Genome‐wide association identified a suggestive locus near the chromosome 4 linkage peak. Conclusions Overall, these results support the vervet as a non‐human primate model of amyloid‐related neurodegeneration, such as Alzheimer's disease and cerebral amyloid angiopathy, and highlight Aβ1–40 and p‐tau181 as potentially valuable biomarkers of these processes.

Published

2017

34. Transmission of Staphylococcus aureus from Humans to Green Monkeys in The Gambia as Revealed by Whole-Genome Sequencing

Author

Emma L. Doughty, George M. Weinstock, Jainaba Manneh, Jennifer Danzy Cramer, Michel M. Dione, Brenda Kwambana-Adams, Nelson B. Freimer, Harry A. Thorpe, Christopher A. Schmitt, Henry Badji, Edward J. Feil, Trudy R. Turner, Mark J. Pallen, Martin Antonio, Sion C. Bayliss, Madikay Senghore, Chinelo Ebruke, Ebenezer Foster-Nyarko, Anna J. Jasinska, and Björkroth, J

Subjects

0301 basic medicine, Staphylococcus aureus, 030106 microbiology, Biology, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, Microbial Ecology, Cercopithecus aethiops, 03 medical and health sciences, Chlorocebus aethiops, medicine, Genetics, 2.2 Factors relating to the physical environment, Animals, Humans, Spotlight, Aetiology, Phylogeny, Whole genome sequencing, Genome, Ecology, Transmission (medicine), Human Genome, Monkey Diseases, Bacterial, Sequence Analysis, DNA, DNA, Staphylococcal Infections, Medical research, Virology, Infectious Diseases, Emerging Infectious Diseases, Homo sapiens, Carrier State, Gambia, African Green Monkey, Infection, Sequence Analysis, Genome, Bacterial, Food Science, Biotechnology

Abstract

Staphylococcus aureus is an important pathogen of humans and animals. We genome sequenced 90 S. aureus isolates from The Gambia: 46 isolates from invasive disease in humans, 13 human carriage isolates, and 31 monkey carriage isolates. We inferred multiple anthroponotic transmissions of S. aureus from humans to green monkeys ( Chlorocebus sabaeus ) in The Gambia over different time scales. We report a novel monkey-associated clade of S. aureus that emerged from a human-to-monkey switch estimated to have occurred 2,700 years ago. Adaptation of this lineage to the monkey host is accompanied by the loss of phage-carrying genes that are known to play an important role in human colonization. We also report recent anthroponotic transmission of the well-characterized human lineages sequence type 6 (ST6) and ST15 to monkeys, probably because of steadily increasing encroachment of humans into the monkeys' habitat. Although we have found no evidence of transmission of S. aureus from monkeys to humans, as the two species come into ever-closer contact, there might be an increased risk of additional interspecies exchanges of potential pathogens. IMPORTANCE The population structures of Staphylococcus aureus in humans and monkeys in sub-Saharan Africa have been previously described using multilocus sequence typing (MLST). However, these data lack the power to accurately infer details regarding the origin and maintenance of new adaptive lineages. Here, we describe the use of whole-genome sequencing to detect transmission of S. aureus between humans and nonhuman primates and to document the genetic changes accompanying host adaptation. We note that human-to-monkey switches tend to be more common than the reverse and that a novel monkey-associated clade is likely to have emerged from such a switch approximately 2,700 years ago. Moreover, analysis of the accessory genome provides important clues as to the genetic changes underpinning host adaptation and, in particular, shows that human-to-monkey switches tend to be associated with the loss of genes known to confer adaptation to the human host.

Published

2016

35. Prevalence of Zika virus infection in wild African primates

Author

Jane E. Phillips-Conroy, Andrea M. Weiler, Nelson B. Freimer, David H. O’Connor, Jason H. Rogers, Adam L. Bailey, Clifford J. Jolly, Connor R. Buechler, Anna J. Jasinska, Gabrielle L. Barry, Cristian Apetrei, and Thomas C. Friedrich

Subjects

0303 health sciences, medicine.medical_specialty, 030231 tropical medicine, Biology, biology.organism_classification, Macaque, Virology, Virus, 3. Good health, Zika virus, 03 medical and health sciences, 0302 clinical medicine, biology.animal, Epidemiology, medicine, Natural reservoir, 030304 developmental biology

Abstract

The recent spread of Zika virus (ZIKV) is alarming due to its association with birth defects. Though the natural reservoir of ZIKV remains poorly defined, the virus was first described in a captive “sentinel” macaque in Africa. Here, we examined blood from 239 wild African monkeys and found variable seropositivity.

Published

2016

36. Arteriviruses, Pegiviruses, and Lentiviruses Are Common among Wild African Monkeys

Author

Tony L. Goldberg, Cristian Apetrei, Chase W. Nelson, Austin L. Hughes, Michael Lauck, Ria R. Ghai, Anna J. Jasinska, Nelson B. Freimer, Adam L. Bailey, Katelyn E. Heimbruch, David H. O’Connor, Jens H. Kuhn, and Silvestri, G

Subjects

0301 basic medicine, Arterivirus, viruses, Simian, medicine.disease_cause, Medical and Health Sciences, Prevalence, 2.2 Factors relating to the physical environment, Primate, Viral, Aetiology, Phylogeny, Genome, biology, Arterivirus Infections, Haplorhini, Flaviviridae Infections, Viral Load, Biological Sciences, Biological Evolution, Infectious Diseases, HIV/AIDS, Infection, Viral load, Immunology, Wild, Animals, Wild, Genome, Viral, Microbiology, Virus, 03 medical and health sciences, biology.animal, Virology, medicine, Genetics, Animals, Humans, Agricultural and Veterinary Sciences, Chlorocebus, Flaviviridae, Lentivirus, Genetic Variation, Simian immunodeficiency virus, biology.organism_classification, 030104 developmental biology, Good Health and Well Being, Genetic Diversity and Evolution, Insect Science, Africa, Lentivirus Infections, African Green Monkey, Human Virus

Abstract

Nonhuman primates (NHPs) are a historically important source of zoonotic viruses and are a gold-standard model for research on many human pathogens. However, with the exception of simian immunodeficiency virus (SIV) (family Retroviridae ), the blood-borne viruses harbored by these animals in the wild remain incompletely characterized. Here, we report the discovery and characterization of two novel simian pegiviruses (family Flaviviridae ) and two novel simian arteriviruses (family Arteriviridae ) in wild African green monkeys from Zambia (malbroucks [ Chlorocebus cynosuros ]) and South Africa (vervet monkeys [ Chlorocebus pygerythrus ]). We examine several aspects of infection, including viral load, genetic diversity, evolution, and geographic distribution, as well as host factors such as age, sex, and plasma cytokines. In combination with previous efforts to characterize blood-borne RNA viruses in wild primates across sub-Saharan Africa, these discoveries demonstrate that in addition to SIV, simian pegiviruses and simian arteriviruses are widespread and prevalent among many African cercopithecoid (i.e., Old World) monkeys. IMPORTANCE Primates are an important source of viruses that infect humans and serve as an important laboratory model of human virus infection. Here, we discover two new viruses in African green monkeys from Zambia and South Africa. In combination with previous virus discovery efforts, this finding suggests that these virus types are widespread among African monkeys. Our analysis suggests that one of these virus types, the simian arteriviruses, may have the potential to jump between different primate species and cause disease. In contrast, the other virus type, the pegiviruses, are thought to reduce the disease caused by human immunodeficiency virus (HIV) in humans. However, we did not observe a similar protective effect in SIV-infected African monkeys coinfected with pegiviruses, possibly because SIV causes little to no disease in these hosts.

Published

2016

37. Characterization of Expression Quantitative Trait Loci in Pedigrees from Colombia and Costa Rica Ascertained for Bipolar Disorder

Author

Christine B. Peterson, Susan K. Service, Anna J. Jasinska, Fuying Gao, Ivette Zelaya, Terri M. Teshiba, Carrie E. Bearden, Rita M. Cantor, Victor I. Reus, Gabriel Macaya, Carlos López-Jaramillo, Marina Bogomolov, Yoav Benjamini, Eleazar Eskin, Giovanni Coppola, Nelson B. Freimer, Chiara Sabatti, and Brown, Christopher David

Subjects

Male, 0301 basic medicine, Cancer Research, Heredity, Bipolar Disorder, Gene Expression, Genome-wide association study, QH426-470, 0302 clinical medicine, Missing heritability problem, Medicine and Health Sciences, 2.1 Biological and endogenous factors, Gene Regulatory Networks, Aetiology, Genetics (clinical), Genetics, education.field_of_study, Chromosome Mapping, Genomics, Single Nucleotide, Phenotypes, Female, Research Article, Biotechnology, Costa Rica, DNA transcription, Quantitative Trait Loci, Population, Locus (genetics), Colombia, Quantitative trait locus, Biology, Expression QuantitativeTrait Loci, Polymorphism, Single Nucleotide, 03 medical and health sciences, Gene mapping, Mental Health and Psychiatry, Humans, Gene Regulation, Genetic Predisposition to Disease, Genetic Testing, Polymorphism, Gene Prediction, education, Molecular Biology, Alleles, Ecology, Evolution, Behavior and Systematics, Evolutionary Biology, Population Biology, Mood Disorders, Human Genome, Biology and Life Sciences, Computational Biology, Heritability, Genome Analysis, 030104 developmental biology, Expression quantitative trait loci, Population Genetics, 030217 neurology & neurosurgery, Genome-Wide Association Study, Developmental Biology

Abstract

The observation that variants regulating gene expression (expression quantitative trait loci, eQTL) are at a high frequency among SNPs associated with complex traits has made the genome-wide characterization of gene expression an important tool in genetic mapping studies of such traits. As part of a study to identify genetic loci contributing to bipolar disorder and other quantitative traits in members of 26 pedigrees from Costa Rica and Colombia, we measured gene expression in lymphoblastoid cell lines derived from 786 pedigree members. The study design enabled us to comprehensively reconstruct the genetic regulatory network in these families, provide estimates of heritability, identify eQTL, evaluate missing heritability for the eQTL, and quantify the number of different alleles contributing to any given locus. In the eQTL analysis, we utilize a recently proposed hierarchical multiple testing strategy which controls error rates regarding the discovery of functional variants. Our results elucidate the heritability and regulation of gene expression in this unique Latin American study population and identify a set of regulatory SNPs which may be relevant in future investigations of complex disease in this population. Since our subjects belong to extended families, we are able to compare traditional kinship-based estimates with those from more recent methods that depend only on genotype information., Author Summary We assess the heritability and genetic regulation of gene expression in a population of 786 individuals from Costa Rica and Colombia. The subjects, originally recruited in a study of bipolar disorder, are related within 26 extended families. This design allows us to compare estimates of the heritability of gene expression obtained using both traditional and genotype-based methods. We address questions regarding the architecture of genetic regulation including the extent to which gene expression is influenced by variants located nearby vs. far away on the genome and how many variants affect the expression of a given gene. In addition, we identify genetic variants which regulate gene expression; these serve as candidates for future studies to establish the genetic basis of complex traits, including those related to bipolar disorder, and also provide insight into the architecture of genetic regulation in this unique Latin American study population.

Published

2016

38. A non-human primate system for large-scale genetic studies of complex traits

Author

Oi-Wa Choi, J. David Jentsch, Michelle K. Lin, Lynn A. Fairbanks, George M. Weinstock, Jessica Wasserscheid, Sit-yee Kong, Olivera Grujic, Wesley C. Warren, Richard K. Wilson, Trudy R. Turner, Yoon Jung, Ken Dewar, Rita M. Cantor, Joseph DeYoung, Nelson B. Freimer, Anna J. Jasinska, and Mathew J. Jorgensen

Subjects

Primates, Genetic Linkage, Quantitative Trait Loci, Population, Locus (genetics), Biology, Quantitative trait locus, Polymorphism, Single Nucleotide, Gene mapping, Chlorocebus aethiops, Genetic model, Genetics, Animals, Glucuronosyltransferase, Association mapping, education, Molecular Biology, Genetics (clinical), Genetic association, education.field_of_study, Genome, Articles, General Medicine, Pedigree, Caribbean Region, Expression quantitative trait loci, Microsatellite Repeats

Abstract

Non-human primates provide genetic model systems biologically intermediate between humans and other mammalian model organisms. Populations of Caribbean vervet monkeys (Chlorocebus aethiops sabaeus) are genetically homogeneous and large enough to permit well-powered genetic mapping studies of quantitative traits relevant to human health, including expression quantitative trait loci (eQTL). Previous transcriptome-wide investigation in an extended vervet pedigree identified 29 heritable transcripts for which levels of expression in peripheral blood correlate strongly with expression levels in the brain. Quantitative trait linkage analysis using 261 microsatellite markers identified significant (n = 8) and suggestive (n = 4) linkages for 12 of these transcripts, including both cis- and trans-eQTL. Seven transcripts, located on different chromosomes, showed maximum linkage to markers in a single region of vervet chromosome 9; this observation suggests the possibility of a master trans-regulator locus in this region. For one cis-eQTL (at B3GALTL, beta-1,3-glucosyltransferase), we conducted follow-up single nucleotide polymorphism genotyping and fine-scale association analysis in a sample of unrelated Caribbean vervets, localizing this eQTL to a region of

Published

2012

39. Neurodegenerative disease biomarkers Aβ1-40, Aβ1-42, tau, and p-tau181in the vervet monkey cerebrospinal fluid: Relation to normal aging, genetic influences, and cerebral amyloid angiopathy

Author

Thomas D. Dyer, Scott C Fears, Anne M. Fagan, Anna J. Jasinska, Roger P. Woods, Matthew J. Jorgensen, Giovanni Coppola, Nelson B. Freimer, Kevin E Scheibel, Jason A. Chen, Alden Y. Huang, Jay R. Kaplan, Noor B Al-Sharif, and John Blangero

Subjects

0301 basic medicine, medicine.medical_specialty, biology, Amyloid beta, Neurodegeneration, Locus (genetics), Disease, biology.organism_classification, medicine.disease, 03 medical and health sciences, Behavioral Neuroscience, 030104 developmental biology, 0302 clinical medicine, Cerebrospinal fluid, Endocrinology, Chromosome 4, Internal medicine, medicine, biology.protein, Vervet monkey, Cerebral amyloid angiopathy, 030217 neurology & neurosurgery

Abstract

Author(s): Chen, Jason A; Fears, Scott C; Jasinska, Anna J; Huang, Alden; Al-Sharif, Noor B; Scheibel, Kevin E; Dyer, Thomas D; Fagan, Anne M; Blangero, John; Woods, Roger; Jorgensen, Matthew J; Kaplan, Jay R; Freimer, Nelson B; Coppola, Giovanni | Abstract: Background:The Caribbean vervet monkey (Chlorocebus aethiops sabaeus) is a potentially valuable animal model of neurodegenerative disease. However, the trajectory of aging in vervets and its relationship to human disease is incompletely understood. Methods:To characterize biomarkers associated with neurodegeneration, we measured cerebrospinal fluid (CSF) concentrations of Aβ1-40, Aβ1-42, total tau, and p-tau181 in 329 members of a multigenerational pedigree. Linkage and genome-wide association were used to elucidate a genetic contribution to these traits. Results:Aβ1-40 concentrations were significantly correlated with age, brain total surface area, and gray matter thickness. Levels of p-tau181 were associated with cerebral volume and brain total surface area. Among the measured analytes, only CSF Aβ1-40 was heritable. No significant linkage (LOD g 3.3) was found, though suggestive linkage was highlighted on chromosomes 4 and 12. Genome-wide association identified a suggestive locus near the chromosome 4 linkage peak. Conclusions:Overall, these results support the vervet as a non-human primate model of amyloid-related neurodegeneration, such as Alzheimer's disease and cerebral amyloid angiopathy, and highlight Aβ1-40 and p-tau181 as potentially valuable biomarkers of these processes.

Published

2018

40. Identification of brain transcriptional variation reproduced in peripheral blood: an approach for mapping brain expression traits

Author

Anna J. Jasinska, Susan Service, Oi-wa Choi, Joseph DeYoung, Olivera Grujic, Sit-yee Kong, Matthew J. Jorgensen, Julia Bailey, Sherry Breidenthal, Lynn A. Fairbanks, Roger P. Woods, J. David Jentsch, and Nelson B. Freimer

Subjects

Male, Transcription, Genetic, Medical and Health Sciences, 0302 clinical medicine, Transcription (biology), Chlorocebus aethiops, Gene expression, 2.1 Biological and endogenous factors, Primate, Aetiology, Genetics (clinical), Genetics & Heredity, Genetics, 0303 health sciences, biology, Brain, Articles, General Medicine, Biological Sciences, Pedigree, Blood, medicine.anatomical_structure, Neurological, Mental health, Female, Transcription, Biotechnology, 1.1 Normal biological development and functioning, Quantitative Trait Loci, Central nervous system, Cercopithecus aethiops, Biological pathway, 03 medical and health sciences, Genetic, Underpinning research, biology.animal, medicine, Animals, Molecular Biology, Gene, 030304 developmental biology, Gene Expression Profiling, Human Genome, Neurosciences, Genetic Variation, Heritability, Expression quantitative trait loci, 030217 neurology & neurosurgery

Abstract

Genome-wide gene expression studies may provide substantial insight into gene activities and biological pathways differing between tissues and individuals. We investigated such gene expression variation by analyzing expression profiles in brain tissues derived from eight different brain regions and from blood in 12 monkeys from a biomedically important non-human primate model, the vervet (Chlorocebus aethiops sabaeus). We characterized brain regional differences in gene expression, focusing on transcripts for which inter-individual variation of expression in brain correlates well with variation in blood from the same individuals. Using stringent criteria, we identified 29 transcripts whose expression is measurable, stable, replicable, variable between individuals, relevant to brain function and heritable. Polymorphisms identified in probe regions could, in a minority of transcripts, confound the interpretation of the observed inter-individual variation. The high heritability of levels of these transcripts in a large vervet pedigree validated our approach of focusing on transcripts that showed higher inter-individual compared with intra-individual variation. These selected transcripts are candidate expression Quantitative Trait Loci, differentially regulating transcript levels in the brain among individuals. Given the high degree of conservation of tissue expression profiles between vervets and humans, our findings may facilitate the understanding of regional and individual transcriptional variation and its genetic mechanisms in humans. The approach employed here-utilizing higher quality tissue and more precise dissection of brain regions than is usually possible in humans-may therefore provide a powerful means to investigate variation in gene expression relevant to complex brain related traits, including human neuropsychiatric diseases.

Published

2009

41. Expression characteristics of triplet repeat-containing RNAs and triplet repeat-interacting proteins in human tissues

Author

Anna J. Jasinska, Piotr Kozlowski, and Wlodzimierz J. Krzyzosiak

Subjects

Regulation of gene expression, Gene expression profiling, Genetics, congenital, hereditary, and neonatal diseases and abnormalities, Expressed sequence tag, Tandem repeat, Transcription (biology), Gene expression, RNA, Plasma protein binding, Biology, General Biochemistry, Genetics and Molecular Biology

Abstract

Numerous human transcripts contain tandem repeats of trinucleotide motifs, the function of which remains unknown. In this study we used the available gene expression EST data to characterize the abundance of a large group of these transcripts in different tissues and determine the mRNAs which had the highest contribution to the observed levels of transcripts containing different types of the CNG repeats. A more extensive characteristics was performed for transcripts containing the CUG repeats, and those encoding the repeat-binding proteins. The scarcity of double-stranded CUG repeats as well as various proportions of the single-stranded and double-stranded CUG repeat-binding proteins were revealed in the studied transcriptomes. The observed correlated levels of transcripts containing single-stranded CUG repeats and of proteins binding single-stranded CUG repeats may imply that in addition to transcripts which only provide binding sites for these proteins there may be a substantial portion of the transcripts whose metabolism is directly regulated by such proteins. Our results showing a highly variable composition of triplet repeat-containing transcripts and their interacting proteins in different tissues may contribute to a better understanding of the mechanism of RNA-mediated pathogenesis in triplet repeat expansion diseases.

Published

2008

42. A quantitative trait locus for variation in dopamine metabolism mapped in a primate model using reference sequences from related species

Author

Nelson B. Freimer, Susan K. Service, Roel A. Ophoff, Anna J. Jasinska, Kevin McKee, Amelie Villeneuve, Alexandre Belisle, Julia N. Bailey, Sherry E. Breidenthal, Matthew J. Jorgensen, J. John Mann, Rita M. Cantor, Ken Dewar, and Lynn A. Fairbanks

Subjects

Male, Primates, Dopamine, Quantitative Trait Loci, Genome Scan, Single-nucleotide polymorphism, Biology, Quantitative trait locus, Polymorphism, Single Nucleotide, Genome, Species Specificity, Gene mapping, Genetic variation, Animals, Vervet monkey, Genetics, Multidisciplinary, Base Sequence, Genetic Variation, Homovanillic Acid, Hydroxyindoleacetic Acid, Biological Sciences, biology.organism_classification, Models, Animal, Female, Reference genome

Abstract

Non-human primates (NHP) provide crucial research models. Their strong similarities to humans make them particularly valuable for understanding complex behavioral traits and brain structure and function. We report here the genetic mapping of an NHP nervous system biologic trait, the cerebrospinal fluid (CSF) concentration of the dopamine metabolite homovanillic acid (HVA), in an extended inbred vervet monkey ( Chlorocebus aethiops sabaeus ) pedigree. CSF HVA is an index of CNS dopamine activity, which is hypothesized to contribute substantially to behavioral variations in NHP and humans. For quantitative trait locus (QTL) mapping, we carried out a two-stage procedure. We first scanned the genome using a first-generation genetic map of short tandem repeat markers. Subsequently, using >100 SNPs within the most promising region identified by the genome scan, we mapped a QTL for CSF HVA at a genome-wide level of significance (peak logarithm of odds score >4) to a narrow well delineated interval (

Published

2007

43. The genome of the vervet ( Chlorocebus aethiops sabaeus )

Author

Nicoletta Archidiacono, Jennifer F. Hughes, George M. Weinstock, Yoon Jung, Christopher A. Schmitt, Angela Noll, Nelson B. Freimer, Matthew J. Jorgensen, Jennifer J. Tuscher, Nam Tran, Jason M. Brenchley, David H. O’Connor, Matthew W. Hahn, Eugene Redmond, Alex Nisbett, Roland Zahn, Hannes Svardal, Gary P. Schroth, Raquel García-Pérez, Magnus Nordborg, Nikoleta Juretic, Michael J. Montague, Gregg W.C. Thomas, Michel M. Dione, Julie A. Karl, Anna J. Jasinska, Wesley C. Warren, Jay R. Kaplan, Richard K. Wilson, Patrick Minx, Bronwen Aken, Mariano Rocchi, Colby Chiang, Françoise Thibaud-Nissen, Jessica Wasserscheid, Vasily Ramensky, Oi Wa Choi, Gennady Churakov, Roscoe Stanyon, Yu S. Huang, David Webb, Brian J. Raney, Jörn E. Schmitz, Milinn Kremitzki, Beatrice Jacquelin, Michaela Müller-Trutwin, Juergen Schmitz, Rishi Nag, Tomas Marques-Bonet, LaDeana W. Hillier, Martin Antonio, Tina Graves, Trudy R. Turner, Kim Kyung, Ken Dewar, Chad Tomlinson, Roger W. Wiseman, Oronzo Capozzi, The McDonnell Genome Institute (MGI), Washington University in Saint Louis (WUSTL), Semel Institute for Neuroscience and Human Behavior [Los Angeles, Ca], University of California [Los Angeles] (UCLA), University of California-University of California, Institute of Bioorganic Chemistry [Poznań], Polska Akademia Nauk = Polish Academy of Sciences (PAN), Institució Catalana de Recerca i Estudis Avançats (ICREA), Centro Nacional de Analisis Genomico [Barcelona] (CNAG), Gregor Mendel Institute of Molecular Plant Biology (GMI), Austrian Academy of Sciences (OeAW), University of Bari Aldo Moro (UNIBA), Whitehead Institute, Massachusetts Institute of Technology (MIT), McGill University = Université McGill [Montréal, Canada], University of Wisconsin - Milwaukee, University of the Free State [South Africa], University of Wisconsin-Madison, Beth Israel Deaconess Medical Center [Boston] (BIDMC), Harvard Medical School [Boston] (HMS), Crucell Holland B.V, St. Kitts Biomedical Research Foundation, Régulation des Infections Rétrovirales, Institut Pasteur [Paris], National Institute of Allergy and Infectious Diseases [Bethesda] (NIAID-NIH), National Institutes of Health [Bethesda] (NIH), Medical Research Council Unit The Gambia (MRC), Illumina Incorporated [San Diego, CA, USA], Wake Forest School of Medicine [Winston-Salem], Wake Forest Baptist Medical Center, Indiana University [Bloomington], Indiana University System, University of California [Santa Cruz] (UCSC), University of California, European Molecular Biology Laboratory [Hinxton], Institute of Experimental Pathology (ZMBE), Westfälische Wilhelms-Universität Münster (WWU), Institute for Evolution and Biodiversity (IEB), Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI), National Center for Biotechnology Information (NCBI), The Jackson Laboratory [Bar Harbor] (JAX), Funding to R.K.W. was provided by NIH-NHGRI grant 5U54HG00307907. Support for the Vervet Research Colony was provided by NIH grant RR019963/OD010965 to J.R.K. Funding to N.B.F. was provided by NIH grants R01RR016300 and R01OD010980. The French National Agency for Research on AIDS and Viral Hepatitis (ANRS) provided funding to M.C.M.-T. Funding to M.R. and R.S. was provided by the Ministero della Universita’ e della Ricerca. Funding to K.D. was provided by Genome Canada and Genome Quebec. B.A. and R.N. acknowledge support from the Wellcome Trust (grant number WT095908) and the European Molecular Biology Laboratory., We thank the following organizations for providing sampling permits and permissions: Ethiopian Wildlife Conservation Authority, Zambia Wildlife Authority, Wildlife Division, Forestry Commission, Republic of Ghana, and Gambia Department of Parks and Wildlife Management. We thank Dr. James L. Blanchard and Dr. Ivona Pandrea for vervet samples used to characterize MHC. We thank Josh McMichael and Josh Peck for figure assistance. We thank Joanne Nelson and Barbara Gillam for data submission. We thank the members of the library production group led by Catrina Fronick and sequencing led by Matt Cordes. We also thank the Medical Research Council Unit (MRC), The Gambia for their assistance, as well as all the veterinarians who worked with us to safely obtain samples., National Institutes of Health (US), National Human Genome Research Institute (US), Agence Nationale de Recherches sur le SIDA et les Hépatites Virales (France), Agence Nationale de la Recherche (France), Ministero dell'Istruzione, dell'Università e della Ricerca, Genome Canada, EMBO, Wellcome Trust, University of California (UC)-University of California (UC), Università degli studi di Bari Aldo Moro = University of Bari Aldo Moro (UNIBA), University of the Free State [South Africa] (UFS), Institut Pasteur [Paris] (IP), University of California [Santa Cruz] (UC Santa Cruz), University of California (UC), Westfälische Wilhelms-Universität Münster = University of Münster (WWU), and Università degli Studi di Firenze = University of Florence (UniFI)

Subjects

animal diseases, [SDV]Life Sciences [q-bio], Chlorocebus aethiops, Cercopithecus aethiops, Medical and Health Sciences, Major Histocompatibility Complex, MESH: Animals, MESH: Genetic Variation, MESH: Phylogeny, Genetics (clinical), Phylogeny, MESH: Evolution, Molecular, Gene Rearrangement, education.field_of_study, Cercopithecini, Genome, biology, MESH: Genomics, [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], MESH: Karyotype, Genomics, Biological Sciences, 3. Good health, Rhesus macaque, Phylogeography, MESH: Phylogeography, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, [SDE]Environmental Sciences, Complete Genome assembly, primates, cercopithecini, Infection, Biotechnology, MESH: Computational Biology, Resource, Evolution, Bioinformatics, MESH: Gene Rearrangement, Population, Karyotype, Simis, Old World monkey, MESH: Molecular Sequence Annotation, [SDV.BID]Life Sciences [q-bio]/Biodiversity, Chromosome Painting, Evolution, Molecular, MESH: Major Histocompatibility Complex, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], parasitic diseases, Genetics, Animals, MESH: Genome, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, education, [SDV.GEN]Life Sciences [q-bio]/Genetics, Genètica animal, MESH: Chromosome Painting, Human Genome, Molecular, Computational Biology, Genetic Variation, Molecular Sequence Annotation, Gene rearrangement, biology.organism_classification, MESH: Cercopithecus aethiops, [SDV.GEN.GA]Life Sciences [q-bio]/Genetics/Animal genetics, Evolutionary biology, African Green Monkey

Abstract

Warren, Wesley C. et al., We describe a genome reference of the African green monkey or vervet (Chlorocebus aethiops). This member of the Old World monkey (OWM) superfamily is uniquely valuable for genetic investigations of simian immunodeficiency virus (SIV), for which it is the most abundant natural host species, and of a wide range of health-related phenotypes assessed in Caribbean vervets (C. a. sabaeus), whose numbers have expanded dramatically since Europeans introduced small numbers of their ancestors from West Africa during the colonial era. We use the reference to characterize the genomic relationship between vervets and other primates, the intra-generic phylogeny of vervet subspecies, and genome-wide structural variations of a pedigreed C. a. sabaeus population. Through comparative analyses with human and rhesus macaque, we characterize at high resolution the unique chromosomal fission events that differentiate the vervets and their close relatives from most other catarrhine primates, in whom karyotype is highly conserved. We also provide a summary of transposable elements and contrast these with the rhesus macaque and human. Analysis of sequenced genomes representing each of the main vervet subspecies supports previously hypothesized relationships between these populations, which range across most of sub-Saharan Africa, while uncovering high levels of genetic diversity within each. Sequence-based analyses of major histocompatibility complex (MHC) polymorphisms reveal extremely low diversity in Caribbean C. a. sabaeus vervets, compared to vervets from putatively ancestral West African regions. In the C. a. sabaeus research population, we discover the first structural variations that are, in some cases, predicted to have a deleterious effect; future studies will determine the phenotypic impact of these variations., Funding to R.K.W. was provided by NIH-NHGRI grant 5U54HG00307907. Support for the Vervet Research Colony was provided by NIH grant RR019963/OD010965 to J.R.K. Funding to N.B.F. was provided by NIH grants R01RR016300 and R01OD010980. The French National Agency for Research on AIDS and Viral Hepatitis (ANRS) provided funding to M.C.M.-T. Funding to M.R. and R.S. was provided by the Ministero della Universita’ e della Ricerca. Funding to K.D. was provided by Genome Canada and Genome Quebec. B.A. and R.N. acknowledge support from the Wellcome Trust (grant number WT095908) and the European Molecular Biology Laboratory.

Published

2015

44. Convergent linkage evidence from two Latin-American population isolates supports the presence of a susceptibility locus for bipolar disorder in 5q31–34

Author

Pablo Davanzo, Daniel Ortiz, Carlos Palacio, Constanza Duque, Matthew Levinson, Carmen Araya Ortiz, Guadalupe Polanco, Carlos López, Carol A. Mathews, Andrés Ruiz-Linares, Gabriel J. Restrepo, Magui Ramirez, Barbara Kremeyer, Julio Bejarano, Julio Molina, Damini Jawaheer, Gabriel Bedoya, Nelson B. Freimer, Victor I. Reus, Jorge Vega, María Victoria Parra, Xinia Araya, Jenny García, L. Carvajal, Ileana Aldana, Anna J. Jasinska, Chiara Sabatti, Gabriel Macaya, Eduardo Fournier, Jorge Ospina, and Ibi Herzberg

Subjects

Costa Rica, Male, Bipolar Disorder, Population, Colombia, Biology, Statistics, Nonparametric, Gene mapping, Genetic linkage, Genetics, medicine, Humans, Genetic Predisposition to Disease, Bipolar disorder, education, Molecular Biology, Genetics (clinical), Linkage (software), education.field_of_study, Genome, Human, Haplotype, General Medicine, medicine.disease, Founder Effect, Pedigree, Chromosomes, Human, Pair 5, Microsatellite, Female, Lod Score, Microsatellite Repeats, Founder effect

Abstract

We performed a whole genome microsatellite marker scan in six multiplex families with bipolar (BP) mood disorder ascertained in Antioquia, a historically isolated population from North West Colombia. These families were characterized clinically using the approach employed in independent ongoing studies of BP in the closely related population of the Central Valley of Costa Rica. The most consistent linkage results from parametric and non-parametric analyses of the Colombian scan involved markers on 5q31-33, a region implicated by the previous studies of BP in Costa Rica. Because of these concordant results, a follow-up study with additional markers was undertaken in an expanded set of Colombian and Costa Rican families; this provided a genome-wide significant evidence of linkage of BPI to a candidate region of approximately 10 cM in 5q31-33 (maximum non-parametric linkage score=4.395, P0.00004). Interestingly, this region has been implicated in several previous genetic studies of schizophrenia and psychosis, including disease association with variants of the enthoprotin and gamma-aminobutyric acid receptor genes.

Published

2006

45. Structural Features of MicroRNA (miRNA) Precursors and Their Relevance to miRNA Biogenesis and Small Interfering RNA/Short Hairpin RNA Design

Author

Urszula Wilczynska, Danuta Kaczynska, Wlodzimierz J. Krzyzosiak, Jacek Krol, Maria Drath, Krzysztof Sobczak, and Anna J. Jasinska

Subjects

Models, Molecular, Genetics, Lin-4 microRNA precursor, Small interfering RNA, Base Sequence, RNA-induced silencing complex, RNA, Cell Biology, Computational biology, Biology, Biochemistry, Terminal loop, Small hairpin RNA, MicroRNAs, microRNA, RNA Precursors, Nucleic Acid Conformation, RNA-Induced Silencing Complex, Thermodynamics, Gene silencing, RNA, Small Interfering, Molecular Biology

Abstract

We have established the structures of 10 human microRNA (miRNA) precursors using biochemical methods. Eight of these structures turned out to be different from those that were computer-predicted. The differences localized in the terminal loop region and at the opposite side of the precursor hairpin stem. We have analyzed the features of these structures from the perspectives of miRNA biogenesis and active strand selection. We demonstrated the different thermodynamic stability profiles for pre-miRNA hairpins harboring miRNAs at their 5′- and 3′-sides and discussed their functional implications. Our results showed that miRNA prediction based on predicted precursor structures may give ambiguous results, and the success rate is significantly higher for the experimentally determined structures. On the other hand, the differences between the predicted and experimentally determined structures did not affect the stability of termini produced through “conceptual dicing.” This result confirms the value of thermodynamic analysis based on mfold as a predictor of strand section by RNAi-induced silencing complex (RISC).

Published

2004

46. Structures of trinucleotide repeats in human transcripts and their functional implications

Author

Piotr Kozlowski, Krzysztof Sobczak, Gracjan Michlewski, Anna J. Jasinska, Mateusz de Mezer, Wlodzimierz J. Krzyzosiak, and Marek Napierala

Subjects

Genetics, education.field_of_study, Transcription, Genetic, Population, Genetic Variation, RNA, Articles, Biology, Transcriptome, Trinucleotide Repeats, Transcription (biology), Heredodegenerative Disorders, Nervous System, Humans, Nucleic Acid Conformation, Direct repeat, RNA, Messenger, Trinucleotide Repeat Expansion, education, Trinucleotide repeat expansion, Gene, Functional genomics, Alleles

Abstract

Among the goals of RNA structural and functional genomics is determining structures and establishing the functions of a rich repertoire of simple sequence repeats in transcripts. These repeats are present in transcripts from their ‘birth’ in the nucleus to their ‘death’ in cytoplasm and have the potential of being involved in many steps of RNA regulation. The knowledge of their structural features and functional roles will also shed more light on the postulated mechanisms of RNA pathogenesis in a growing list of neurological diseases caused by simple sequence repeat expansions. Here, we discuss several different lines of research to support the hypothesis that the mechanism of RNA pathogenesis may be a more common phenomenon triggered or modulated also by abundant long normal repeats. We propose structures of the repeat regions in transcripts of genes involved in Triplet Repeat Expansion Diseases. We have classified the polymorphic repeat alleles of these genes according to their ability to form hairpin structures in transcripts, and describe the distribution of different structural forms of the repeats in the human population. We have also reported the results of a systematic survey of the human transcriptome to identify mRNAs containing triplet repeats and to classify them according to structural and functional criteria. Based on this knowledge, we discuss the putative wider role of triplet repeat RNA hairpins in human diseases. A hypothetical model is proposed in which long normal RNA hairpins formed by the repeats may also be involved in pathogenesis.

Published

2003

47. Enhancer evolution across 20 mammalian species

Author

Diego, Villar, Camille, Berthelot, Sarah, Aldridge, Tim F, Rayner, Margus, Lukk, Miguel, Pignatelli, Thomas J, Park, Robert, Deaville, Jonathan T, Erichsen, Anna J, Jasinska, James M A, Turner, Mads F, Bertelsen, Elizabeth P, Murchison, Paul, Flicek, and Duncan T, Odom

Subjects

Evolution, Molecular, Histone Code, Mammals, Enhancer Elements, Genetic, Liver, Animals, Humans, Promoter Regions, Genetic, Article, Transcription Factors

Abstract

Summary The mammalian radiation has corresponded with rapid changes in noncoding regions of the genome, but we lack a comprehensive understanding of regulatory evolution in mammals. Here, we track the evolution of promoters and enhancers active in liver across 20 mammalian species from six diverse orders by profiling genomic enrichment of H3K27 acetylation and H3K4 trimethylation. We report that rapid evolution of enhancers is a universal feature of mammalian genomes. Most of the recently evolved enhancers arise from ancestral DNA exaptation, rather than lineage-specific expansions of repeat elements. In contrast, almost all liver promoters are partially or fully conserved across these species. Our data further reveal that recently evolved enhancers can be associated with genes under positive selection, demonstrating the power of this approach for annotating regulatory adaptations in genomic sequences. These results provide important insight into the functional genetics underpinning mammalian regulatory evolution., Graphical Abstract, Highlights • Rapid enhancer and slow promoter evolution across genomes of 20 mammalian species • Enhancers are rarely conserved across these mammals • Recently evolved enhancers dominate mammalian regulatory landscapes • Unbiased mapping links candidate enhancers with lineage-specific positive selection, Comparative functional genomic analysis in 20 mammalian species reveals distinct features for the evolution of enhancers, in comparison to those of promoters, across 180 million years.

Published

2014

48. Factors associated with siman immunodeficiency virus transmission in a natural African nonhuman primate host in the wild

Author

Dongzhu Ma, Felix Feyertag, Yoon Jung, Christopher A. Schmitt, Jennifer Danzy Cramer, Jan Kristoff, Cristian Apetrei, Tianyu He, Martin Antonio, Russell P. Tracy, Michel M. Dione, Nelson B. Freimer, Viskam Wijewardana, David Robertson, Ivona Pandrea, Trudy R. Turner, Anna J. Jasinska, and Kevin D. Raehtz

Subjects

Male, Sexual transmission, Genotype, animal diseases, viruses, Immunology, Molecular Sequence Data, Viral quasispecies, Biology, medicine.disease_cause, Microbiology, Virus, Immune system, Virology, Chlorocebus aethiops, medicine, Animals, Cluster Analysis, Phylogeny, Transmission (medicine), Monkey Diseases, virus diseases, Sequence Analysis, DNA, Simian immunodeficiency virus, Flow Cytometry, Lymphocyte Subsets, Insect Science, Lentivirus Infections, Pathogenesis and Immunity, Female, Gambia, Simian Immunodeficiency Virus, African Green Monkey, Viral load

Abstract

African green monkeys (AGMs) are naturally infected with simian immunodeficiency virus (SIV) at high prevalence levels and do not progress to AIDS. Sexual transmission is the main transmission route in AGM, while mother-to-infant transmission (MTIT) is negligible. We investigated SIV transmission in wild AGMs to assess whether or not high SIV prevalence is due to differences in mucosal permissivity to SIV (i.e., whether the genetic bottleneck of viral transmission reported in humans and macaques is also observed in AGMs in the wild). We tested 121 sabaeus AGMs ( Chlorocebus sabaeus ) from the Gambia and found that 53 were SIV infected (44%). By combining serology and viral load quantitation, we identified 4 acutely infected AGMs, in which we assessed the diversity of the quasispecies by single-genome amplification (SGA) and documented that a single virus variant established the infections. We thus show that natural SIV transmission in the wild is associated with a genetic bottleneck similar to that described for mucosal human immunodeficiency virus (HIV) transmission in humans. Flow cytometry assessment of the immune cell populations did not identify major differences between infected and uninfected AGM. The expression of the SIV coreceptor CCR5 on CD4 + T cells dramatically increased in adults, being higher in infected than in uninfected infant and juvenile AGMs. Thus, the limited SIV MTIT in natural hosts appears to be due to low target cell availability in newborns and infants, which supports HIV MTIT prevention strategies aimed at limiting the target cells at mucosal sites. Combined, (i) the extremely high prevalence in sexually active AGMs, (ii) the very efficient SIV transmission in the wild, and (iii) the existence of a fraction of multiparous females that remain uninfected in spite of massive exposure to SIV identify wild AGMs as an acceptable model of exposed, uninfected individuals. IMPORTANCE We report an extensive analysis of the natural history of SIVagm infection in its sabaeus monkey host, the African green monkey species endemic to West Africa. Virtually no study has investigated the natural history of SIV infection in the wild. The novelty of our approach is that we report for the first time that SIV infection has no discernible impact on the major immune cell populations in natural hosts, thus confirming the nonpathogenic nature of SIV infection in the wild. We also focused on the correlates of SIV transmission, and we report, also for the first time, that SIV transmission in the wild is characterized by a major genetic bottleneck, similar to that described for HIV-1 transmission in humans. Finally, we report here that the restriction of target cell availability is a major correlate of the lack of SIV transmission to the offspring in natural hosts of SIVs.

Published

2014

49. High frequency of recurrent mutations inBRCA1 andBRCA2 genes in Polish families with breast and ovarian cancer

Author

Krzysztof Sobczak, Wlodzimierz J. Krzyzosiak, Ewa Chmielik, Jan Wloch, Beata Utracka-Hutka, Piotr Kozlowski, Anna Sikorska, Ewa Grzybowska, Anna J. Jasinska, Marek Rusin, Eliza Kwiatkowska, Helena Zientek, Ewa Kalinowska, and Laura Gorniak

Subjects

Genetics, Mutation, endocrine system diseases, Disease, Biology, medicine.disease, medicine.disease_cause, Germline, Breast cancer, Li–Fraumeni syndrome, medicine, Coding region, skin and connective tissue diseases, Ovarian cancer, Gene, Genetics (clinical)

Abstract

Germ-line mutations in BRCA1 and BRCA2 genes result in a significantly increased risk of breast and ovarian cancer. Other genes involved in an increased predisposition to breast cancer include the TP53 gene, mutated in Li-Fraumeni syndrome. To estimate the frequency of germ-line mutations in these three genes in Upper Silesia, we have analyzed 47 breast/ovarian cancer families from that region. We found five different disease predisposing mutations in 17 (36%) families. Twelve families (25.5%) carried known BRCA1 mutations (5382insC and C61G), four families (8.5%) carried novel BRCA2 mutations (9631delC and 6886delGAAAA), and one family (2%) harbored novel mutation 1095del8 in the TP53 gene, which is the largest germline deletion in coding sequence of this gene identified thus far. The 5382insC mutation in BRCA1 was found in 11 families and the 9631delC mutation in BRCA2 occurred in three families. These two mutations taken together contribute to 82% of all mutations found in this study, and 30% of the families investigated harbor one of these mutations. The very high frequency of common mutations observed in these families can only be compared to that reported for Ashkenazi Jewish, Icelandic, and Russian high-risk families. This frequency, however, may not be representative for the entire Polish population. The observed distribution of mutations will favor routine pre-screening of predisposed families using a simple and cost-effective test.

Published

2000

50. SIVagm infection in wild African green monkeys from South Africa: epidemiology, natural history, and evolutionary considerations

Author

Yoon Jung, Natalie Martinez Sosa, Dongzhu Ma, Russell P. Tracy, Christopher A. Schmitt, Nelson B. Freimer, J. Paul Grobler, Viskam Wijewardana, Donald S. Burke, David Robertson, Felix Feyertag, Anna J. Jasinska, Kevin D. Raehtz, Trudy R. Turner, Ivona Pandrea, Cristian Apetrei, and Jan Kristoff

Subjects

Male, animal diseases, viruses, Simian Acquired Immunodeficiency Syndrome, Pathogenesis, medicine.disease_cause, law.invention, Serology, South Africa, Immunodeficiency Viruses, Mutation Rate, law, Chlorocebus aethiops, Biology (General), Polymerase chain reaction, Recombination, Genetic, Genetics, 0303 health sciences, Ecology, Viral Load, Host-Pathogen Interaction, Host-Pathogen Interactions, Female, Simian Immunodeficiency Virus, Viral load, Research Article, QH301-705.5, Molecular Sequence Data, Immunology, Biology, Microbiology, Microbial Ecology, Evolution, Molecular, 03 medical and health sciences, Phylogenetics, Virology, medicine, Animals, Molecular Biology, Repetitive Sequences, Nucleic Acid, 030304 developmental biology, Base Sequence, Molecular epidemiology, 030306 microbiology, Immunity, Genetic Variation, Simian immunodeficiency virus, RC581-607, Animal Models of Infection, Parasitology, Viral replication, Immunologic diseases. Allergy, Viral Transmission and Infection

Abstract

Pathogenesis studies of SIV infection have not been performed to date in wild monkeys due to difficulty in collecting and storing samples on site and the lack of analytical reagents covering the extensive SIV diversity. We performed a large scale study of molecular epidemiology and natural history of SIVagm infection in 225 free-ranging AGMs from multiple locations in South Africa. SIV prevalence (established by sequencing pol, env, and gag) varied dramatically between infant/juvenile (7%) and adult animals (68%) (p, Author Summary We simultaneously assessed, for the first time in a natural host, the epidemiology, diversity and natural history of SIVagmVer infection in wild vervet populations from South Africa. We report that African green monkeys (AGMs) have likely been infected with SIVagm for a long period, ranging from the time of their speciation to Plio-Pleistocene migrations, refuting previous molecular clock calculations suggesting SIVagm to be of recent occurrence. As a result of virus-host coadaptation, SIVagmVer infection is characterized by a lack of disease progression in spite of robust viral replication. We show that very active SIVagm transmission in adult AGMs contrasts with a very limited transmission to their offspring, in spite of massive exposure to SIVagm both in utero and through breastfeeding. The observation that some AGMs remain uninfected in spite of life-long exposure to SIVagm identifies wild vervets as an acceptable animal model for the exposed uninfected individuals, which can be used to identify correlates of resistance to HIV/SIV infection.

Published

2013