Your search keyword '"Brian Hallmark"' showing total 8 results

1. FADS genetic and metabolomic analyses identify the ∆5 desaturase (FADS1) step as a critical control point in the formation of biologically important lipids

Author

Michael C. Seeds, Timothy D. Howard, Floyd H. Chilton, Rahul Dutta, Kirsten N. Lake, Rasika A. Mathias, Brian Hallmark, and Lindsay M. Reynolds

Subjects

0301 basic medicine, Fatty Acid Desaturases, Cell signaling, FADS1, FADS2, lcsh:Medicine, Locus (genetics), Diseases, Biology, Polymorphism, Single Nucleotide, Article, 03 medical and health sciences, 0302 clinical medicine, Metabolomics, Delta-5 Fatty Acid Desaturase, Genetic variation, Humans, lcsh:Science, Gene, Genetic association study, Genetics, chemistry.chemical_classification, Multidisciplinary, Molecular medicine, lcsh:R, Lipid Metabolism, Lipids, 030104 developmental biology, chemistry, Heritable quantitative trait, lipids (amino acids, peptides, and proteins), lcsh:Q, 030217 neurology & neurosurgery, Biomarkers, Polyunsaturated fatty acid

Abstract

Humans have undergone intense evolutionary selection to optimize their capacity to generate necessary quantities of long chain (LC-) polyunsaturated fatty acid (PUFA)-containing lipids. To better understand the impact of genetic variation within a locus of three FADS genes (FADS1, FADS2, and FADS3) on a diverse family of lipids, we examined the associations of 247 lipid metabolites (including four major classes of LC-PUFA-containing molecules and signaling molecules) with common and low-frequency genetic variants located within the FADS locus. Genetic variation in the FADS locus was strongly associated (p –8) with 52 LC-PUFA-containing lipids and signaling molecules, including free fatty acids, phospholipids, lyso-phospholipids, and an endocannabinoid. Notably, the majority (80%) of FADS-associated lipids were not significantly associated with genetic variants outside of this FADS locus. These findings highlight the central role genetic variation at the FADS locus plays in regulating levels of physiologically critical LC-PUFA-containing lipids that participate in innate immunity, energy homeostasis, and brain development/function.

Published

2020

2. Prospective clinical trial examining the impact of genetic variation in FADS1 on the metabolism of linoleic acid– and ɣ-linolenic acid–containing botanical oils

Author

Tammy L Mustin, Laurel Johnstone, Michael C. Seeds, Floyd H. Chilton, Priscilla Ivester, Rasika A. Mathias, Maggie L Bohannon, Susan Sergeant, Brian Hallmark, and Ingo Ruczinski

Subjects

Fatty Acid Desaturases, Male, 0301 basic medicine, Medicine (miscellaneous), Cohort Studies, chemistry.chemical_compound, 8,11,14-Eicosatrienoic Acid, Delta-5 Fatty Acid Desaturase, Prospective Studies, chemistry.chemical_classification, education.field_of_study, Nutrition and Dietetics, biology, Middle Aged, Lipids, Original Research Communications, Fatty Acids, Unsaturated, lipids (amino acids, peptides, and proteins), Female, Borago, Polyunsaturated fatty acid, Adult, medicine.medical_specialty, Genotype, Linolenic acid, FADS1, Linoleic acid, Population, Polymorphism, Single Nucleotide, White People, Linoleic Acid, Young Adult, 03 medical and health sciences, Double-Blind Method, Internal medicine, medicine, Humans, Plant Oils, gamma-Linolenic Acid, gamma-Linolenic acid, education, Aged, 030109 nutrition & dietetics, business.industry, biology.organism_classification, Soybean Oil, 030104 developmental biology, Endocrinology, Fatty acid desaturase, chemistry, biology.protein, business

Abstract

Background Unexplained heterogeneity in clinical trials has resulted in questions regarding the effectiveness of ɣ-linolenic acid (GLA)-containing botanical oil supplements. This heterogeneity may be explained by genetic variation within the fatty acid desaturase (FADS) gene cluster that is associated with circulating and tissue concentrations of arachidonic acid (ARA) and dihomo-ɣ-linolenic acid (DGLA), both of which may be synthesized from GLA and result in proinflammatory and anti-inflammatory metabolites, respectively. Objectives The objective of this study was to prospectively compare the capacity of a non-Hispanic white cohort, stratified by FADS genotype at the key single-nucleotide polymorphism (SNP) rs174537, to metabolize 18-carbon omega-6 (n-6) PUFAs in borage oil (BO) and soybean oil (SO) to GLA, DGLA, and ARA. Methods Healthy adults (n = 64) participated in a randomized, double-blind, crossover intervention. Individuals received encapsulated BO (Borago officinalis L.; 37% LA and 23% GLA) or SO [Glycine max (L.) Merr.; 50% LA and 0% GLA] for 4 wk, followed by an 8-wk washout period, before consuming the opposite oil for 4 wk. Serum lipids and markers of inflammation (C-reactive protein) were assessed for both oil types at baseline and during weeks 2 and 4 of the intervention. Results SO supplementation failed to alter circulating concentrations of any n-6 long-chain PUFAs. In contrast, a modest daily dose of BO elevated serum concentrations of GLA and DGLA in an rs174537 genotype-dependent manner. In particular, DGLA increased by 57% (95% CI: 0.38, 0.79) in GG genotype individuals, but by 141% (95% CI: 1.03, 2.85) in TT individuals. For ARA, baseline concentrations varied substantially by genotype and increased modestly with BO supplementation, suggesting a key role for FADS variation in the balance of DGLA and ARA. Conclusions The results of this study clearly suggest that personalized and population-based approaches considering FADS genetic variation may be necessary to optimize the design of future clinical studies with GLA-containing oils. This trial was registered at clinicaltrials.gov as NCT02337231.

Published

2020

3. Impact of Amerind ancestry and FADS genetic variation on omega-3 deficiency and cardiometabolic traits in Hispanic populations

Author

Yii-Der Ida Chen, Lindsay M. Reynolds, Robert C. Kaplan, Chaojie Yang, Michael C. Seeds, Martha L. Daviglus, Lyn M. Steffen, Brian Hallmark, Floyd H. Chilton, Michael Y. Tsai, Stephen S. Rich, Alexis C. Wood, Laurel Johnstone, Jin Choul Chai, Chandra Tontsch, Ingo Ruczinski, Timothy D. O’Connor, Lawrence J. Mandarino, Sarah A. Blomquist, Rasika A. Mathias, Rozenn N. Lemaitre, Qibin Qi, Dawn K. Coletta, Amanda M. Fretts, and Ani Manichaikul

Subjects

Fatty Acid Desaturases, 0301 basic medicine, Heredity, QH301-705.5, Genetic genealogy, Medicine (miscellaneous), Single-nucleotide polymorphism, 030204 cardiovascular system & hematology, Biology, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Fatty Acids, Omega-3, Genetic variation, Genotype, medicine, Humans, SNP, Hispanic population, Longitudinal Studies, Biology (General), Genetic association study, Genetics, chemistry.chemical_classification, Genetic Variation, Hispanic or Latino, medicine.disease, United States, 030104 developmental biology, Risk factors, chemistry, Multigene Family, Indians, North American, Heritable quantitative trait, lipids (amino acids, peptides, and proteins), General Agricultural and Biological Sciences, Dyslipidemia, Polyunsaturated fatty acid

Abstract

Long chain polyunsaturated fatty acids (LC-PUFAs) have critical signaling roles that regulate dyslipidemia and inflammation. Genetic variation in the FADS gene cluster accounts for a large portion of interindividual differences in circulating and tissue levels of LC-PUFAs, with the genotypes most strongly predictive of low LC-PUFA levels at strikingly higher frequencies in Amerind ancestry populations. In this study, we examined relationships between genetic ancestry and FADS variation in 1102 Hispanic American participants from the Multi-Ethnic Study of Atherosclerosis. We demonstrate strong negative associations between Amerind genetic ancestry and LC-PUFA levels. The FADS rs174537 single nucleotide polymorphism (SNP) accounted for much of the AI ancestry effect on LC-PUFAs, especially for low levels of n-3 LC-PUFAs. Rs174537 was also strongly associated with several metabolic, inflammatory and anthropomorphic traits including circulating triglycerides (TGs) and E-selectin in MESA Hispanics. Our study demonstrates that Amerind ancestry provides a useful and readily available tool to identify individuals most likely to have FADS-related n-3 LC-PUFA deficiencies and associated cardiovascular risk., Yang et al. examine whether genetic ancestry is associated with genetic variation in fatty acid desaturases and plasma phospholipid levels of long chain polyunsaturated fatty acids (LC-PUFAs) in Hispanic Americans. They find strong associations between Amerind genetic ancestry and LC-PUFA levels; and report that the well-known FADS rs174537 variant was associated with several metabolic, inflammatory and anthropomorphic traits including circulating triglycerides.

Published

2021

4. Exome Sequencing Provides Evidence of Polygenic Adaptation to a Fat-Rich Animal Diet in Indigenous Siberian Populations

Author

Michael F. Hammer, Ludmila P. Osipova, Ryan N. Gutenkunst, Joseph C. Watkins, PingHsun Hsieh, Tatiana M. Karafet, and Brian Hallmark

Subjects

Gene Flow, 0301 basic medicine, Multifactorial Inheritance, Mutation rate, Demographic history, Acclimatization, Adaptation, Biological, Biology, DNA, Mitochondrial, 03 medical and health sciences, Asian People, Gene Frequency, Exome Sequencing, Ethnicity, Genetics, Humans, Exome, Molecular Biology, Allele frequency, Alleles, Phylogeny, Ecology, Evolution, Behavior and Systematics, Exome sequencing, Demography, Natural selection, Genetic Variation, Biological Evolution, Dietary Fats, Diet, Siberia, Genetic hitchhiking, Genetics, Population, 030104 developmental biology, Human evolution, Evolutionary biology, Adaptation

Abstract

Siberia is one of the coldest environments on Earth and has great seasonal temperature variation. Long-term settlement in northern Siberia undoubtedly required biological adaptation to severe cold stress, dramatic variation in photoperiod, and limited food resources. In addition, recent archeological studies show that humans first occupied Siberia at least 45,000 years ago; yet our understanding of the demographic history of modern indigenous Siberians remains incomplete. In this study, we use whole-exome sequencing data from the Nganasans and Yakuts to infer the evolutionary history of these two indigenous Siberian populations. Recognizing the complexity of the adaptive process, we designed a model-based test to systematically search for signatures of polygenic selection. Our approach accounts for stochasticity in the demographic process and the hitchhiking effect of classic selective sweeps, as well as potential biases resulting from recombination rate and mutation rate heterogeneity. Our demographic inference shows that the Nganasans and Yakuts diverged ∼12,000-13,000 years ago from East-Asian ancestors in a process involving continuous gene flow. Our polygenic selection scan identifies seven candidate gene sets with Siberian-specific signals. Three of these gene sets are related to diet, especially to fat metabolism, consistent with the hypothesis of adaptation to a fat-rich animal diet. Additional testing rejects the effect of hitchhiking and favors a model in which selection yields small allele frequency changes at multiple unlinked genes.

Published

2017

5. Genomics in Personalized Nutrition: Can You 'Eat for Your Genes'?

Author

Veronica Mullins, Brian Hallmark, Laurel Johnstone, Floyd H. Chilton, and William Bresette

Subjects

Male, 0301 basic medicine, lcsh:TX341-641, 030209 endocrinology & metabolism, Single-nucleotide polymorphism, Genomics, Review, Computational biology, Disease, Biology, Recommended Dietary Allowances, Polymorphism, Single Nucleotide, Nutrigenetics, Eating, 03 medical and health sciences, Nutrigenomics, 0302 clinical medicine, nutrients, medicine, Humans, genetics, Nutritional Physiological Phenomena, Genetic Testing, Genetic variability, Precision Medicine, precision nutrition, nutrigenetics, Genetic testing, Nutrition and Dietetics, medicine.diagnostic_test, personalized, Genetic architecture, 030104 developmental biology, Female, Diet, Healthy, diet, lcsh:Nutrition. Foods and food supply, Food Science

Abstract

Genome-wide single nucleotide polymorphism (SNP) data are now quickly and inexpensively acquired, raising the prospect of creating personalized dietary recommendations based on an individual’s genetic variability at multiple SNPs. However, relatively little is known about most specific gene–diet interactions, and many molecular and clinical phenotypes of interest (e.g., body mass index [BMI]) involve multiple genes. In this review, we discuss direct to consumer genetic testing (DTC-GT) and the current potential for precision nutrition based on an individual’s genetic data. We review important issues such as dietary exposure and genetic architecture addressing the concepts of penetrance, pleiotropy, epistasis, polygenicity, and epigenetics. More specifically, we discuss how they complicate using genotypic data to predict phenotypes as well as response to dietary interventions. Then, several examples (including caffeine sensitivity, alcohol dependence, non-alcoholic fatty liver disease, obesity/appetite, cardiovascular, Alzheimer’s disease, folate metabolism, long-chain fatty acid biosynthesis, and vitamin D metabolism) are provided illustrating how genotypic information could be used to inform nutritional recommendations. We conclude by examining ethical considerations and practical applications for using genetic information to inform dietary choices and the future role genetics may play in adopting changes beyond population-wide healthy eating guidelines.

Published

2020

6. Identification of Plasma Glycosphingolipids as Potential Biomarkers for Prostate Cancer (PCa) Status

Author

Brian Hallmark, John S. Parks, Cristina Moraga Franco, Laurel Johnstone, James L. Mohler, Floyd H. Chilton, Michael C. Seeds, Hui Kuan Lin, Elizabeth T. H. Fontham, Rahul Dutta, Jeannette T. Bensen, Gary J. Smith, Justin M. Snider, Susan Sergeant, Corey D. Broeckling, William Bresette, and Ashley J. Snider

Subjects

Male, 0301 basic medicine, Ceramide, lcsh:QR1-502, Ceramides, urologic and male genital diseases, Biochemistry, Article, Glycosphingolipids, White People, lcsh:Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Prostate cancer, 0302 clinical medicine, Metabolomics, Antigen, Tandem Mass Spectrometry, Biomarkers, Tumor, medicine, Humans, ceramide, Molecular Biology, Aged, business.industry, Prostate, Prostatic Neoplasms, Cancer, Middle Aged, Prostate-Specific Antigen, medicine.disease, Sphingolipid, Black or African American, 030104 developmental biology, chemistry, lipidomic, 030220 oncology & carcinogenesis, Potential biomarkers, Lipidomics, Cancer research, biomarker, Biomarker (medicine), sphingolipid, business, metabolomic

Abstract

Prostate cancer (PCa) is the most common male cancer and the second leading cause of cancer death in United States men. Controversy continues over the effectiveness of prostate-specific antigen (PSA) for distinguishing aggressive from indolent PCa. There is a critical need for more specific and sensitive biomarkers to detect and distinguish low- versus high-risk PCa cases. Discovery metabolomics were performed utilizing ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS) on plasma samples from 159 men with treatment na&iuml, ve prostate cancer participating in the North Carolina-Louisiana PCa Project to determine if there were metabolites associated with aggressive PCa. Thirty-five identifiable plasma small molecules were associated with PCa aggressiveness, 15 of which were sphingolipids, nine common molecules were present in both African-American and European-American men. The molecules most associated with PCa aggressiveness were glycosphingolipids, levels of trihexosylceramide and tetrahexosylceramide were most closely associated with high-aggressive PCa. The Cancer Genome Atlas was queried to determine gene alterations within glycosphingolipid metabolism that are associated with PCa and other cancers. Genes that encode enzymes associated with the metabolism of glycosphingolipids were altered in 12% of PCa and &gt, 30% of lung, uterine, and ovarian cancers. These data suggest that the identified plasma (glyco)sphingolipids should be further validated for their association with aggressive PCa, suggesting that specific sphingolipids may be included in a diagnostic signature for PCa.

Published

2020

7. Siberian genetic diversity reveals complex origins of the Samoyedic‐speaking populations

Author

Olga V. Savina, Tatiana M. Karafet, Ludmila P. Osipova, Michael F. Hammer, and Brian Hallmark

Subjects

0301 basic medicine, endocrine system, Human Migration, Population, Single-nucleotide polymorphism, Genetic relationship, 030105 genetics & heredity, Biology, Polymorphism, Single Nucleotide, Genome, 03 medical and health sciences, Genetics, Humans, SNP, DNA, Ancient, education, Ecology, Evolution, Behavior and Systematics, Genetic diversity, education.field_of_study, Chromosomes, Human, Y, Genetic Variation, Linguistics, Siberia, 030104 developmental biology, Evolutionary biology, Anthropology, Genetic relatedness, Anatomy, Genetic composition

Abstract

OBJECTIVES We examined autosomal genome-wide SNPs and Y-chromosome data from 15 Siberian and 12 reference populations to study the affinities of Siberian populations, and to address hypotheses about the origin of the Samoyed peoples. METHODS Samples were genotyped for 567 096 autosomal SNPs and 147 Y-chromosome polymorphic sites. For several analyses, we used 281 093 SNPs from the intersection of our data with publicly available ancient Siberian samples. To examine genetic relatedness among populations, we applied PCA, FST , TreeMix, and ADMIXTURE analyses. To explore the potential effect of demography and evolutionary processes, the distribution of ROH and IBD sharing within population were studied. RESULTS Analyses of autosomal and Y-chromosome data reveal high differentiation of the Siberian groups. The Siberian populations have a large proportion of their genome in ROH and IBD segments. Several populations (ie, Nganasans, Evenks, Yukagirs, and Koryaks) do not appear to have experienced admixture with other Siberian populations (ie, producing only positive f3), while for the other tested populations the composition of mixing sources always included Nganasans or Evenks. The Nganasans from the Taymyr Peninsula demonstrate the greatest level of shared shorter ROH and IBD with nearly all other Siberian populations. CONCLUSIONS Autosomal SNP and Y-chromosome data demonstrate that Samoyedic populations differ significantly in their genetic composition. Genetic relationship is observed only between Forest and Tundra Nentsi. Selkups are affiliated with the Kets from the Yenisey River, while the Nganasans are separated from their linguistic neighbors, showing closer affinities with the Evenks and Yukagirs.

Published

2018

8. Rare variants of small effect size in neuronal excitability genes influence clinical outcome in Japanese cases of SCN1A truncation-positive Dravet syndrome

Author

Jin Zhou, Miao Zhang, Atsushi Ishii, Ryan Sprissler, Alexander Tchourbanov, Michael F. Hammer, Shinichi Hirose, Branden Lau, Brian Hallmark, Joseph C. Watkins, and Laurel Johnstone

Subjects

Male, 0301 basic medicine, Candidate gene, Heredity, lcsh:Medicine, Epilepsies, Myoclonic, Genome-wide association study, Haploinsufficiency, Pathogenesis, Pathology and Laboratory Medicine, Bioinformatics, Database and Informatics Methods, 0302 clinical medicine, Medicine and Health Sciences, Exome, lcsh:Science, Exome sequencing, Genetics, Multidisciplinary, High-Throughput Nucleotide Sequencing, Genomics, Phenotypes, Genetic Mapping, Phenotype, Neurology, Female, Research Article, Common disease-common variant, Genotype, Variant Genotypes, Biology, Research and Analysis Methods, 03 medical and health sciences, Dravet syndrome, Genome-Wide Association Studies, medicine, Humans, Expressivity (genetics), Alleles, Epilepsy, Genes, Modifier, lcsh:R, Biology and Life Sciences, Computational Biology, Human Genetics, Genome Analysis, medicine.disease, NAV1.1 Voltage-Gated Sodium Channel, Biological Databases, 030104 developmental biology, Genetic Loci, Mutation, Mutation Databases, lcsh:Q, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

Dravet syndrome (DS) is a rare, devastating form of childhood epilepsy that is often associated with mutations in the voltage-gated sodium channel gene, SCN1A. There is considerable variability in expressivity within families, as well as among individuals carrying the same primary mutation, suggesting that clinical outcome is modulated by variants at other genes. To identify modifier gene variants that contribute to clinical outcome, we sequenced the exomes of 22 individuals at both ends of a phenotype distribution (i.e., mild and severe cognitive condition). We controlled for variation associated with different mutation types by limiting inclusion to individuals with a de novo truncation mutation resulting in SCN1A haploinsufficiency. We performed tests aimed at identifying 1) single common variants that are enriched in either phenotypic group, 2) sets of common or rare variants aggregated in and around genes associated with clinical outcome, and 3) rare variants in 237 candidate genes associated with neuronal excitability. While our power to identify enrichment of a common variant in either phenotypic group is limited as a result of the rarity of mild phenotypes in individuals with SCN1A truncation variants, our top candidates did not map to functional regions of genes, or in genes that are known to be associated with neurological pathways. In contrast, we found a statistically-significant excess of rare variants predicted to be damaging and of small effect size in genes associated with neuronal excitability in severely affected individuals. A KCNQ2 variant previously associated with benign neonatal seizures is present in 3 of 12 individuals in the severe category. To compare our results with the healthy population, we performed a similar analysis on whole exome sequencing data from 70 Japanese individuals in the 1000 genomes project. Interestingly, the frequency of rare damaging variants in the same set of neuronal excitability genes in healthy individuals is nearly as high as in severely affected individuals. Rather than a single common gene/variant modifying clinical outcome in SCN1A-related epilepsies, our results point to the cumulative effect of rare variants with little to no measurable phenotypic effect (i.e., typical genetic background) unless present in combination with a disease-causing truncation mutation in SCN1A.

Published

2017