Search

Your search keyword '"Wenan Chen"' showing total 71 results
Start Over Author "Wenan Chen" Language undetermined
71 results on '"Wenan Chen"'

3. The genomic landscape of acute lymphoblastic leukemia with intrachromosomal amplification of chromosome 21

Author

Qingsong Gao, Sarra L Ryan, Ilaria Iacobucci, Pankaj S Ghate, Ruth E Cranston, Claire J Schwab, Abdelrahman H. Elsayed, Lei Shi, Stanley B Pounds, Shaohua Lei, Pradyumna Baviskar, Deqing Pei, Cheng Cheng, Matthew Bashton, Paul B Sinclair, David R Bentley, Mark Ross, Zoya Kingsbury, Terena James, Kathryn G Roberts, Meenakshi Devidas, Yiping Fan, Wenan Chen, Ti-Cheng Chang, Gang Wu, Andrew J. Carroll, Nyla A. Heerema, Virginia Valentine, Marcus B Valentine, Wenjian Yang, Jun J. Yang, Anthony V Moorman, Christine J Harrison, and Charles G. Mullighan

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Abstract

Intrachromosomal amplification of chromosome 21 defines a subtype of high-risk childhood acute lymphoblastic leukemia (iAMP21-ALL) characterized by copy number changes and complex rearrangements of chromosome 21. The genomic basis of iAMP21-ALL and the pathogenic role of the region of amplification of chromosome 21 to leukemogenesis remain incompletely understood. Here, using integrated whole genome and transcriptome sequencing of 124 iAMP21-ALL patients, including rare cases arising in the context of constitutional chromosomal aberrations, we identified subgroups of iAMP21-ALL according to patterns of copy number alteration and structural variation. This large dataset enabled formal delineation of a 7.8 Mb common region of amplification harboring 71 genes, 43 of which are differentially expressed compared to non-iAMP21-ALL cases, and including multiple genes implicated in the pathogenesis of acute leukemia: CHAF1B, DYRK1A, ERG, HMGN1 and RUNX1. Using multimodal single cell genomic profiling, including single cell whole genome sequencing of two cases, we documented clonal heterogeneity and genomic evolution, formally demonstrating that acquisition of the iAMP21-chromosome is an early event that may undergo progressive amplification during disease ontogeny. We show that UV mutational signatures and high mutation load are characteristic secondary genetic features. Although the genomic alterations of chromosome 21 are variable, these integrated genomic analyses and demonstration of an extended common minimal region of amplification broaden the definition of iAMP21-ALL for more precise diagnosis using cytogenetic or genomic methods to inform clinical management.

Published
2023

4. Supplementary Figure S4 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Strong nuclear staining of mutant TP53-R337H protein in normal tissue of carriers who developed ACC.

Published
2023

5. Supplementary Figure S8 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Mutant p53-R334H has a prolonged half-life and compromised in forming stable tetramers in primary mouse embryo fibroblasts.

Published
2023

6. Supplementary Figure S2 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Cell death in response to radiation is impaired in thymocytes and splenocytes expressing Mutant p53-R334H.

Published
2023

7. Supplementary Table S1 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Mouse Cohorts and Associated Pathology

Published
2023

8. Supplementary Figure S6 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Senescence associated β-galactosidase expression and ROS levels in mutant p53-R334H primary MEFs.

Published
2023

9. Supplementary Figure S1 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Kaplan-Meier Survival Curve.

Published
2023

10. Data from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

The TP53-R337H founder mutation exists at a high frequency throughout southern Brazil and represents one of the most common germline TP53 mutations reported to date. It was identified in pediatric adrenocortical tumors in families with a low incidence of cancer. The R337H mutation has since been found in association with early-onset breast cancers and Li–Fraumeni syndrome (LFS). To study this variability in tumor susceptibility, we generated a knockin mutant p53 mouse model (R334H). Endogenous murine p53-R334H protein was naturally expressed at high levels in multiple tissues and was functionally compromised in a tissue- and stress-specific manner. Mutant p53-R334H mice developed tumors with long latency and incomplete penetrance, consistent with many human carriers being at a low but elevated risk for cancer. These findings suggest the involvement of additional cooperating genetic alterations when TP53-R337H occurs in the context of LFS, which has important implications for genetic counseling and long-term clinical follow-up.Significance:A p53-R334H knockin mouse serves as an important model for studying the most common inherited germline TP53 mutation (R337H) that is associated with variable tumor susceptibility.

Published
2023

11. Supplementary Figure S5 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Gene set enrichment analysis of control and IR-treated WT and p53-R334H thymocytes.

Published
2023

12. Supplementary Table S2 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Mdm2 Knockout Embryonic Lethality

Published
2023

13. Supplementary Figure S7 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Elevated levels of mutant p53 protein in the nucleus of low passage p53-R334H MEFs.

Published
2023

14. Supplementary Figure S9 from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Erastin treatment of early passage primary MEFs induced cell death in cells with mutant p53.

Published
2023

15. Supplementary Data from The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Gerard P. Zambetti, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, Carlos Rodriguez-Galindo, Alberto S. Pappo, Bonald C. Figueiredo, Enzo Lalli, Guillermina Lozano, Richard J. Heath, Geoffrey Neale, Jinling Wang, Michael R. Clay, Jerold E. Rehg, Emilia M. Pinto, and John R. Jeffers

Abstract

Supplemental Materials and Methods and Supplementary Figure Legends

Published
2023

16. Recent advances and challenges of rare variant association analysis in the biobank sequencing era

Author

Wenan Chen, Brandon J. Coombes, and Nicholas B. Larson

Subjects
Genetics, Molecular Medicine, Genetics (clinical)
Abstract

Causal variants for rare genetic diseases are often rare in the general population. Rare variants may also contribute to common complex traits and can have much larger per-allele effect sizes than common variants, although power to detect these associations can be limited. Sequencing costs have steadily declined with technological advancements, making it feasible to adopt whole-exome and whole-genome profiling for large biobank-scale sample sizes. These large amounts of sequencing data provide both opportunities and challenges for rare-variant association analysis. Herein, we review the basic concepts of rare-variant analysis methods, the current state-of-the-art methods in utilizing variant annotations or external controls to improve the statistical power, and particular challenges facing rare variant analysis such as accounting for population structure, extremely unbalanced case-control design. We also review recent advances and challenges in rare variant analysis for familial sequencing data and for more complex phenotypes such as survival data. Finally, we discuss other potential directions for further methodology investigation.

Published
2022

17. The Common Germline TP53-R337H Mutation Is Hypomorphic and Confers Incomplete Penetrance and Late Tumor Onset in a Mouse Model

Author

Bonald C. Figueiredo, Jerold E. Rehg, Richard J. Heath, Alberto S. Pappo, Jinling Wang, Carlos Rodriguez-Galindo, Geoffrey Neale, Guillermina Lozano, Raul C. Ribeiro, Stanley Pounds, Wenan Chen, John R. Jeffers, Gerard P. Zambetti, Enzo Lalli, Emilia M. Pinto, and Michael R. Clay

Subjects
0301 basic medicine, Cancer Research, Mutation, Genetic counseling, Mutant, Cancer, Endogeny, Context (language use), Biology, medicine.disease_cause, medicine.disease, Penetrance, Germline, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, medicine, Cancer research
Abstract

The TP53-R337H founder mutation exists at a high frequency throughout southern Brazil and represents one of the most common germline TP53 mutations reported to date. It was identified in pediatric adrenocortical tumors in families with a low incidence of cancer. The R337H mutation has since been found in association with early-onset breast cancers and Li–Fraumeni syndrome (LFS). To study this variability in tumor susceptibility, we generated a knockin mutant p53 mouse model (R334H). Endogenous murine p53-R334H protein was naturally expressed at high levels in multiple tissues and was functionally compromised in a tissue- and stress-specific manner. Mutant p53-R334H mice developed tumors with long latency and incomplete penetrance, consistent with many human carriers being at a low but elevated risk for cancer. These findings suggest the involvement of additional cooperating genetic alterations when TP53-R337H occurs in the context of LFS, which has important implications for genetic counseling and long-term clinical follow-up. Significance: A p53-R334H knockin mouse serves as an important model for studying the most common inherited germline TP53 mutation (R337H) that is associated with variable tumor susceptibility.

Published
2021

19. Genome-wide mapping of oncogenic pathways and genetic modifiers of chemotherapy using a high-risk hepatoblastoma genetic model

Author

Jie Fang, Shivendra Singh, Sivaraman Natarajan, Heather Tillman, Ahmed Abuzaid, Adam Durbin, HaWon Lee, Qiong Wu, Jacob Steele, Jon Connelly, Changde Cheng, Hongjian Jin, Wenan Chen, Yiping Fan, Shondra Pruett-Miller, Jerold Rehg, Joseph Emmons, Stefano Cairo, Ruoning Wang, Evan Glazer, Andrew Murphy, Taosheng Chen, Andrew Davidoff, John Easton, Xiang Chen, and Jun Yang

Subjects
digestive system diseases
Abstract

A lack of relevant genetic models and cell lines hampers our understanding of hepatoblastoma pathogenesis and the development of new therapies for this neoplasm. We report a liver-specific MYC-driven hepatoblastoma murine model that faithfully recapitulates the pathological features of mixed fetal and embryonal hepatoblastoma, with transcriptomics resembling the high-risk gene signatures of the human disease. Single-cell RNA-sequencing and spatial transcriptomics identified distinct subpopulations of hepatoblastoma cells. After deriving cell lines from the mouse model, we mapped the cancer dependency genes using CRISPR-Cas9 screening and identified druggable targets shared with human hepatoblastoma (i.e., CDK7, CDK9, PRMT1, PRMT5). Our screen also revealed oncogenes and tumor suppressor genes in hepatoblastoma that engage multiple, druggable cancer signaling pathways. Chemotherapy is critical for human hepatoblastoma treatment. A genetic mapping of doxorubicin response by CRISPR-Cas9 screening identified modifiers whose loss-of-function synergizes with (e.g., PRKDC) or antagonizes (e.g., apoptosis genes) with the effect of chemotherapy. The combination of PRKDC inhibition and doxorubicin-based chemotherapy greatly enhances therapeutic efficacy. These studies have provided a useful set of resources including disease models suitable to identify and validate potential therapeutic targets in human high-risk hepatoblastoma.

Published
2022

20. CoCoRV: a rare variant analysis framework using publicly available genotype summary counts to prioritize germline disease-predisposition genes

Author

Saima Sultana Tithi, David W. Ellison, Gang Wu, Shuoguo Wang, and Wenan Chen

Subjects
Confounding, Genotype Summary, medicine, False positive paradox, Computational biology, Disease, Amyotrophic lateral sclerosis, Biology, medicine.disease, Pediatric cancer, Gene, Germline
Abstract

Sequencing cases without matched healthy controls hinders prioritization of germline disease-predisposition genes. To circumvent this problem, genotype summary counts from public data sets can serve as controls. However, systematic inflation and false positives can arise if confounding factors are not addressed. We propose a new framework, consistent summary counts based rare variant burden test (CoCoRV), to address these challenges. CoCoRV has consistent variant quality control and filtering, ethnicity-stratified rare variant association test, accurate estimation of inflation factors, powerful FDR control, and can detect rare variants in high linkage disequilibrium. When we applied CoCoRV to pediatric cancer cohorts, the top genes identified were cancer-predisposition genes. We also applied CoCoRV to identify disease-predisposition genes in adult brain tumors and amyotrophic lateral sclerosis. Given that potential confounding factors were well controlled after applying the framework, CoCoRV provides a cost-effective solution to prioritizing disease-risk genes enriched with rare pathogenic variants.

Published
2021

21. A rare variant analysis framework using public genotype summary counts to prioritize disease-predisposition genes

Author

Wenan Chen, Shuoguo Wang, Saima Sultana Tithi, David W. Ellison, Daniel J. Schaid, and Gang Wu

Subjects
Adult, Multidisciplinary, Genotype, Neoplasms, Amyotrophic Lateral Sclerosis, General Physics and Astronomy, Humans, Genetic Predisposition to Disease, General Chemistry, Child, General Biochemistry, Genetics and Molecular Biology
Abstract

Sequencing cases without matched healthy controls hinders prioritization of germline disease-predisposition genes. To circumvent this problem, genotype summary counts from public data sets can serve as controls. However, systematic inflation and false positives can arise if confounding factors are not controlled. We propose a framework, consistent summary counts based rare variant burden test (CoCoRV), to address these challenges. CoCoRV implements consistent variant quality control and filtering, ethnicity-stratified rare variant association test, accurate estimation of inflation factors, powerful FDR control, and detection of rare variant pairs in high linkage disequilibrium. When we applied CoCoRV to pediatric cancer cohorts, the top genes identified were cancer-predisposition genes. We also applied CoCoRV to identify disease-predisposition genes in adult brain tumors and amyotrophic lateral sclerosis. Given that potential confounding factors were well controlled after applying the framework, CoCoRV provides a cost-effective solution to prioritizing disease-risk genes enriched with rare pathogenic variants.

Published
2021

22. A polygenic score for acute vaso-occlusive pain in pediatric sickle cell disease

Author

Xing Tang, Yu Yao, Ti-Cheng Chang, Martha Barton, Yadav Sapkota, Juan Ding, Evadnie Rampersaud, Jinghui Zhang, Amanda M. Brandow, Heather L. Mulder, Celeste Rosencrance, Lance E. Palmer, Donald Yergeau, Doralina L. Anghelescu, Michael Rusch, Edgar Sioson, Yutaka Yasui, Shawn Levy, Gang Wu, James R. Downing, Russell J. Brooke, Celeste K. Kanne, Yong Cheng, Kirby Birch, Winfred C. Wang, Michael R. DeBaun, John Easton, Wenjian Bi, Nicole M. Alberts, Jason R. Hodges, Ashwin P Patel, Vivien A. Sheehan, Shuoguo Wang, Mitchell J. Weiss, Guolian Kang, Nidal Boulos, Andrew Thrasher, Akshay Sharma, Wenan Chen, Jeremie H. Estepp, Jane S. Hankins, Sara R. Rashkin, and Latika Puri

Subjects
Anemia, Thalassemia, Pain, Single-nucleotide polymorphism, Disease, Anemia, Sickle Cell, Bioinformatics, Polymorphism, Single Nucleotide, 03 medical and health sciences, 0302 clinical medicine, Red Cells, Iron, and Erythropoiesis, Polymorphism (computer science), Fetal hemoglobin, Genetic variation, Medicine, Humans, Longitudinal Studies, Child, Fetal Hemoglobin, business.industry, Hematology, medicine.disease, IL1A, 030220 oncology & carcinogenesis, business, 030215 immunology
Abstract

Individuals with monogenic disorders can experience variable phenotypes that are influenced by genetic variation. To investigate this in sickle cell disease (SCD), we performed whole-genome sequencing (WGS) of 722 individuals with hemoglobin HbSS or HbSβ0-thalassemia from Baylor College of Medicine and from the St. Jude Children’s Research Hospital Sickle Cell Clinical Research and Intervention Program (SCCRIP) longitudinal cohort study. We developed pipelines to identify genetic variants that modulate sickle hemoglobin polymerization in red blood cells and combined these with pain-associated variants to build a polygenic score (PGS) for acute vaso-occlusive pain (VOP). Overall, we interrogated the α-thalassemia deletion −α3.7 and 133 candidate single-nucleotide polymorphisms (SNPs) across 66 genes for associations with VOP in 327 SCCRIP participants followed longitudinally over 6 years. Twenty-one SNPs in 9 loci were associated with VOP, including 3 (BCL11A, MYB, and the β-like globin gene cluster) that regulate erythrocyte fetal hemoglobin (HbF) levels and 6 (COMT, TBC1D1, KCNJ6, FAAH, NR3C1, and IL1A) that were associated previously with various pain syndromes. An unweighted PGS integrating all 21 SNPs was associated with the VOP event rate (estimate, 0.35; standard error, 0.04; P = 5.9 × 10−14) and VOP event occurrence (estimate, 0.42; standard error, 0.06; P = 4.1 × 10−13). These associations were stronger than those of any single locus. Our findings provide insights into the genetic modulation of VOP in children with SCD. More generally, we demonstrate the utility of WGS for investigating genetic contributions to the variable expression of SCD-associated morbidities.

Published
2021

23. Shufeng Jiedu capsules protect rats against LPS-induced acute lung injury via activating NRF2-associated antioxidant pathway

Author

Qingwu, Liao, Wenan, Chen, Zhufeng, Tong, Mingming, Xue, Tianwen, Gu, Ying, Yuan, Zhenju, Song, and Zhengang, Tao

Subjects
Lipopolysaccharides, NF-E2-Related Factor 2, Acute Lung Injury, Anti-Inflammatory Agents, Capsules, Antioxidants, Rats, Sprague-Dawley, Disease Models, Animal, Animals, Cytokines, Inflammation Mediators, Lung, Drugs, Chinese Herbal, Signal Transduction
Abstract

Shufeng Jiedu capsule (SFJDC) is a traditional Chinese medicine, which has been used for the treatment of respiratory infections for more than thirty years in Hunan (China). SFJDC protected rats against LPS-induced acute lung injury (ALI); however, the molecular mechanisms underlying the therapeutic effects of SFJDC remain unclear. Therefore, this study aimed at analyzing the major anti-inflammatory compounds of SFJDC and exploring the underlying molecular mechanisms. SFJDC dissolved in water was fingerprinted by UPLC/Q-TOF. Inflammation response was assessed by histopathological examination and ELISA assay. Arterial blood gases were also analyzed to evaluate the function of rat lungs. The expression levels of Kelch-like ECH-associating protein 1 (Keap1), Nrf2, heme oxygenase-1 (HO1), Cullin 3 (CUL3) and NQO1 were analyzed by Western blotting. Results indicated that SFJDC alleviated inflammation response by reducing the level of inflammatory cytokines, and upregulation of glutathione-S-transferase (GST) and superoxide dismutase (SOD) in lung tissues. Furthermore, SFJDC suppressed LPS-induced upregulation of Keap 1 and CUL3 in rat lungs. The expression of NRF2 HO1 and NQO1 were further upregulated by SFJDC in the presence of LPS, indicating that SFJDC might activate the NRF2-associated antioxidant pathway. In conclusion, SFJDC treatment may protect the rat lungs from LPS by alleviating the inflammation response via NRF2-associated antioxidant pathway.

Published
2020

24. Accurate Genomic Variant Detection in Single Cells with Primary Template-Directed Amplification

Author

Sivaraman Natarajan, Robert A. Carter, Charles Gawad, Kavya Annu, Daniel Putnam, Jon P. Connelly, Bridget Shaner, John Easton, Yakun Pang, Veronica Gonzalez-Pena, David C. Klein, Xiang Chen, Wenan Chen, Shondra M. Pruett-Miller, and Yuntao Xia

Subjects
Computer science, Base pair, Computational biology, single-cell sequencing, Polymorphism, Single Nucleotide, Genome, Genome editing, Cell Line, Tumor, Genetics, Humans, Indel, Base Pairing, Genotyping, Whole Genome Amplification, Genetic diversity, Multidisciplinary, whole genome amplification, Genome, Human, Genetic Variation, Structural variant, Templates, Genetic, Biological Sciences, Cellular resolution, Single cell sequencing, CRISPR-Cas Systems, Single-Cell Analysis, Nucleic Acid Amplification Techniques, genome editing off-target, mutagenesis, Mutagens
Abstract

Significance Primary template-directed amplification (PTA) is a major improvement in whole genome amplification, which is required to study intratissue cellular evolution. As presented in the manuscript, PTA produces significantly improved and reproducible genome sequencing coverage and variant detection from a single genome of a single cell. Applications of measuring genetic diversity from single cells with PTA presented in the manuscript include examining the acquisition of genetic changes during normal development and aging, measuring the consequences of specific perturbations such as genome editing, and characterizing the evolution of clonal populations during cancer formation., Improvements in whole genome amplification (WGA) would enable new types of basic and applied biomedical research, including studies of intratissue genetic diversity that require more accurate single-cell genotyping. Here, we present primary template-directed amplification (PTA), an isothermal WGA method that reproducibly captures >95% of the genomes of single cells in a more uniform and accurate manner than existing approaches, resulting in significantly improved variant calling sensitivity and precision. To illustrate the types of studies that are enabled by PTA, we developed direct measurement of environmental mutagenicity (DMEM), a tool for mapping genome-wide interactions of mutagens with single living human cells at base-pair resolution. In addition, we utilized PTA for genome-wide off-target indel and structural variant detection in cells that had undergone CRISPR-mediated genome editing, establishing the feasibility for performing single-cell evaluations of biopsies from edited tissues. The improved precision and accuracy of variant detection with PTA overcomes the current limitations of accurate WGA, which is the major obstacle to studying genetic diversity and evolution at cellular resolution.

Published
2020

25. The Common Germline

Author

John R, Jeffers, Emilia M, Pinto, Jerold E, Rehg, Michael R, Clay, Jinling, Wang, Geoffrey, Neale, Richard J, Heath, Guillermina, Lozano, Enzo, Lalli, Bonald C, Figueiredo, Alberto S, Pappo, Carlos, Rodriguez-Galindo, Wenan, Chen, Stanley, Pounds, Raul C, Ribeiro, and Gerard P, Zambetti

Subjects
Male, Mutation, Missense, Mice, Transgenic, Penetrance, Fibroblasts, Article, Li-Fraumeni Syndrome, Mice, Inbred C57BL, Disease Models, Animal, Mice, Germ Cells, Animals, Female, Genetic Predisposition to Disease, Gene Knock-In Techniques, Tumor Suppressor Protein p53, Brazil, Cells, Cultured, Germ-Line Mutation
Abstract

The TP53-R337H founder mutation exists at a high frequency throughout southern Brazil and represents one of the most common germline TP53 mutations reported to date. It was identified in pediatric adrenocortical tumors in families with a low incidence of cancer. The R337H mutation has since been found in association with early-onset breast cancers and Li-Fraumeni syndrome (LFS). To study this variability in tumor susceptibility, we generated a knockin mutant p53 mouse model (R334H). Endogenous murine p53-R334H protein was naturally expressed at high levels in multiple tissues and was functionally compromised in a tissue- and stress-specific manner. Mutant p53-R334H mice developed tumors with long latency and incomplete penetrance, consistent with many human carriers being at a low but elevated risk for cancer. These findings suggest the involvement of additional cooperating genetic alterations when TP53-R337H occurs in the context of LFS, which has important implications for genetic counseling and long-term clinical follow-up. SIGNIFICANCE: A p53-R334H knockin mouse serves as an important model for studying the most common inherited germline TP53 mutation (R337H) that is associated with variable tumor susceptibility.

Published
2020

26. XAF1 as a modifier of p53 function and cancer susceptibility

Author

Patricia Ashton-Prolla, Tatiana Ei-Jaick B Costa, Madson Q. Almeida, Maria Nirvana Formiga, Berenice B. Mendonca, Kara N. Maxwell, Geoffrey Neale, Mariana M Paraizo, Andrew J. Murphy, Enzo Lalli, Meredith Yeager, Jinghui Zhang, Laurence Brugières, Ana Claudia Latronico, Jinling Wang, Wenan Chen, Carolina Mathias, Evadnie Rampersaud, Gang Wu, Dominique Vaur, Sharon A. Savage, Sahlua Volc, Vania Balderrama Brondani, Gabriela E. S. Felix, Camila Matzenbacher Bittar, Elena M. Stoffel, Enilze Maria de Souza Fonseca Ribeiro, Hector Salvador, Vicente Odone-Filho, Kristine Jones, Tobias Else, Kayla V. Hamilton, Alberto S. Pappo, Edenir Inêz Palmero, Guillermo L. Chantada, Karina Miranda Santiago, Emerson Wander Silva Soares, Moara Machado, Kim E. Nichols, Maria Isabel Achatz, Payal P. Klincha, Cintia Regina Niederauer Ramos, Kelvin C. de Andrade, Luis Kowalski, Raul C. Ribeiro, Heloisa Komechen, Aurelie Vogt, Jon P. Connelly, Yoan Diekmann, Márta Korbonits, Eric Letouzé, Maria Candida Barisson Villares Fragoso, Bonald C. Figueiredo, Carlos Rodriguez-Galindo, Ivy Zortéa S Parise, Cinzia Lavarino, Gerard P. Zambetti, Henrique de Campos Reis Galvão, Weiyin Zhou, Shondra M. Pruett-Miller, Michael R. Clay, Emilia M. Pinto, Mark G. Thomas, and Jose Luis Fuster-Soler

Subjects
Cosegregation, endocrine system diseases, Genetic counseling, Mutant, Biology, 03 medical and health sciences, Transactivation, 0302 clinical medicine, stomatognathic system, medicine, Allele, neoplasms, Research Articles, 030304 developmental biology, Cancer, 0303 health sciences, Multidisciplinary, Haplotype, SciAdv r-articles, Human Genetics, medicine.disease, Phenotype, 030220 oncology & carcinogenesis, Cancer research, Research Article
Abstract

The XAF1-E134* variant increases the cancer risk for carriers of the TP53-R337H allele., Cancer risk is highly variable in carriers of the common TP53-R337H founder allele, possibly due to the influence of modifier genes. Whole-genome sequencing identified a variant in the tumor suppressor XAF1 (E134*/Glu134Ter/rs146752602) in a subset of R337H carriers. Haplotype-defining variants were verified in 203 patients with cancer, 582 relatives, and 42,438 newborns. The compound mutant haplotype was enriched in patients with cancer, conferring risk for sarcoma (P = 0.003) and subsequent malignancies (P = 0.006). Functional analyses demonstrated that wild-type XAF1 enhances transactivation of wild-type and hypomorphic TP53 variants, whereas XAF1-E134* is markedly attenuated in this activity. We propose that cosegregation of XAF1-E134* and TP53-R337H mutations leads to a more aggressive cancer phenotype than TP53-R337H alone, with implications for genetic counseling and clinical management of hypomorphic TP53 mutant carriers.

Published
2020

27. Machine learning suggests polygenic contribution to cognitive dysfunction in amyotrophic lateral sclerosis

Author

Samuel Maiser, Yuen T. So, Vivianna M. Van Deerlin, Gang Wu, Lauren Elman, James Caress, Evadnie Rampersaud, Colin Quinn, Corey T. McMillan, Murray Grossman, Joanne Wuu, Ted M. Burns, Adam C. Naj, Andrea Swenson, Jin Sha, Carlayne E. Jackson, Wenan Chen, Leo McCluskey, Edward B. Lee, Jeffrey Statland, Katerina Placek, J. Paul Taylor, Philip A. Cook, James C. Gee, J. S. Katz, John Q. Trojanowski, John Ravits, Volkan Granit, Michael Benatar, Rosa Rademakers, David J. Irwin, David Walk, Erik P. Pioro, and Laura Hennessy

Subjects
Temporal cortex, 0303 health sciences, business.industry, Hippocampus, Cognition, medicine.disease, Premotor cortex, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Medicine, Effects of sleep deprivation on cognitive performance, Cognitive decline, Amyotrophic lateral sclerosis, business, Neuroscience, 030217 neurology & neurosurgery, Anterior cingulate cortex, 030304 developmental biology
Abstract

Amyotrophic lateral sclerosis (ALS) is a multi-system disease characterized primarily by progressive muscle weakness. Cognitive dysfunction is commonly observed in patients, however factors influencing risk for cognitive dysfunction remain elusive. Using sparse canonical correlation analysis (sCCA), an unsupervised machine-learning technique, we observed that single nucleotide polymorphisms collectively associate with baseline cognitive performance in a large ALS patient cohort (N=327) from the multicenter Clinical Research in ALS and Related Disorders for Therapeutic Development (CReATe) Consortium. We demonstrate that a polygenic risk score derived using sCCA relates to longitudinal cognitive decline in the same cohort, and also to in vivo cortical thinning in the orbital frontal cortex, anterior cingulate cortex, lateral temporal cortex, premotor cortex, and hippocampus (N=90) as well as post mortem motor cortical neuronal loss (N=87) in independent ALS cohorts from the University of Pennsylvania Integrated Neurodegenerative Disease Biobank. Our findings suggest that common genetic polymorphisms may exert a polygenic contribution to the risk of cortical disease vulnerability and cognitive dysfunction in ALS.

Published
2019

28. A genome wide association study suggests the association of muskelin with early onset bipolar disorder: Implications for a GABAergic epileptogenic neurogenesis model

Author

Mark A. Frye, Julie M. Cunningham, Euijung Ryu, Paul E. Croarkin, Qingqin Li, Colin L. Colby, Joanna M. Biernacka, Malik Nassan, Gregory D. Jenkins, Wenan Chen, Marin Veldic, Marion Leboyer, and Susan L. McElroy

Subjects
Genetic Markers, 0301 basic medicine, Bipolar Disorder, Adolescent, Neurogenesis, Genome-wide association study, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Genetic Predisposition to Disease, Bipolar disorder, Age of Onset, Child, Genetic association, Genetics, Models, Genetic, Genetic heterogeneity, Intracellular Signaling Peptides and Proteins, Receptors, GABA-A, medicine.disease, Psychiatry and Mental health, Clinical Psychology, Phenotype, 030104 developmental biology, Hypomania, Case-Control Studies, Child, Preschool, Immunology, medicine.symptom, Age of onset, Cell Adhesion Molecules, Mania, 030217 neurology & neurosurgery, Genome-Wide Association Study
Abstract

Background Although multiple genes have been implicated in bipolar disorder (BD), they explain only a small proportion of its heritability. Identifying additional BD risk variants may be impaired by phenotypic heterogeneity, which is usually not taken into account in genome-wide association studies (GWAS). BD with early age at onset is a more homogeneous familial form of the disorder associated with greater symptom severity. Methods We conducted a GWAS of early-onset BD (onset of mania/hypomania ≤19 years old) in a discovery sample of 419 cases and 1034 controls and a replication sample of 181 cases and 777 controls. These two samples were meta-analyzed, followed by replication of one signal in a third independent sample of 141 cases and 746 controls. Results No single nucleotide polymorphism (SNP) associations were genome-wide significant in the discovery sample. Of the top 15 SNPs in the discovery analysis, rs114034759 in the muskelin (MKLN1) gene was nominally significant in the replication analysis, and was among the top associations in the meta-analysis (p=2.63E−06, OR=1.9). In the third sample, this SNP was again associated with early-onset BD (p=0.036, OR=1.6). Gene expression analysis showed that the rs114034759 risk allele is associated with decreased hippocampal MKLN1 expression. Limitations The sample sizes of the early-onset BD subgroups were relatively small. Conclusions Our results suggest MKLN1 is associated with early-onset BD. MKLN1 regulates cellular trafficking of GABA-A receptors, which is involved in synaptic transmission and plasticity, and is implicated in the mechanism of action of a group of antiepileptic mood stabilizers. These results therefore indicate that GABAergic neurotransmission may be implicated in early-onset BD. We propose that an increase in GABA-A receptors in the hippocampus in BD patients due to lower MKLN1 expression might increase the excitability during the GABA-excited early phase of young neurons, leading to an increased risk of developing a manic/hypomanic episode. Further studies are needed to test this model.

Published
2017

29. A comparison of methods accounting for batch effects in differential expression analysis of UMI count based single cell RNA sequencing

Author

Bensheng Ju, Silu Zhang, Gang Wu, Justin Williams, Xiang Chen, Wenan Chen, John Easton, and Bridget Shaner

Subjects
Mixed model, Differential expression analysis, Fixed effect model, lcsh:Biotechnology, Biophysics, Accounting, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Batch effects, Structural Biology, lcsh:TP248.13-248.65, Covariate, scRNA-seq, Genetics, Latent batch effects, 030304 developmental biology, Mathematics, ComputingMethodologies_COMPUTERGRAPHICS, 0303 health sciences, Power loss, Mixed effect model, business.industry, Contrast (statistics), Regression analysis, Fixed effects model, Surrogate variable based methods, Aggregation-based methods, Computer Science Applications, 030220 oncology & carcinogenesis, Mixed effects, business, Biotechnology, Research Article
Abstract

Graphical abstract, Accounting for batch effects, especially latent batch effects, in differential expression (DE) analysis is critical for identifying true biological effects. Single-cell RNA sequencing (scRNA-seq) is a powerful tool for quantifying cell-to-cell variation in transcript abundance and characterizing cellular dynamics. Although many scRNA-seq DE analysis methods accommodate known batch variables, their performance has not been systematically evaluated. Moreover, the challenge of accounting for latent batch variables in scRNA-seq DE analysis is largely unmet. In contrast, many methods have been developed to account for batch variables (either known or latent) in other high-dimensional data, especially bulk RNA-seq. We extensively evaluate 11 methods for batch variables in different scRNA-seq DE analysis scenarios, with a primary focus on latent batch variables. We demonstrate that for known batch variables, incorporating them as covariates into a regression model outperformed approaches using a batch-corrected matrix. For latent batches, fixed effects models have inflated FDRs, whereas aggregation-based methods and mixed effects models have significant power loss. Surrogate variable based methods generally control the FDR well while achieving good power with small group effects. However, their performance (except that of SVA) deteriorated substantially in scenarios involving large group effects and/or group label impurity. In these settings, SVA achieves relatively good performance despite an occasionally inflated FDR (up to 0.2). Finally we make the following recommendations for scRNA-seq DE analysis: 1) incorporate known batch variables instead of using batch-corrected data; and 2) employ SVA for latent batch correction. However, better methods are still needed to fully unleash the power of scRNA-seq.

Published
2019

30. Latent cellular analysis robustly reveals subtle diversity in large-scale single-cell RNA-seq data

Author

Heather L. Mulder, Bensheng Ju, Yan Li, Yakun Pang, Changde Cheng, Xiang Chen, Wenan Chen, Justin Williams, Celeste Rosencrance, and John Easton

Subjects
CD4-Positive T-Lymphocytes, Heuristic (computer science), Population, Inference, Feature selection, Biology, CD8-Positive T-Lymphocytes, Machine learning, computer.software_genre, Machine Learning, 03 medical and health sciences, 0302 clinical medicine, T-Lymphocyte Subsets, Cell Line, Tumor, Exome Sequencing, Genetics, Humans, RNA-Seq, Cluster analysis, education, Melanoma, 030304 developmental biology, 0303 health sciences, education.field_of_study, business.industry, Sequence Analysis, RNA, Dimensionality reduction, Gene Expression Profiling, 030220 oncology & carcinogenesis, Scalability, Graph (abstract data type), Methods Online, Artificial intelligence, Single-Cell Analysis, business, computer, Algorithms, Software
Abstract

Single-cell RNA sequencing (scRNA-seq) is a powerful tool for characterizing the cell-to-cell variation and cellular dynamics in populations which appear homogeneous otherwise in basic and translational biological research. However, significant challenges arise in the analysis of scRNA-seq data, including the low signal-to-noise ratio with high data sparsity, potential batch effects, scalability problems when hundreds of thousands of cells are to be analyzed among others. The inherent complexities of scRNA-seq data and dynamic nature of cellular processes lead to suboptimal performance of many currently available algorithms, even for basic tasks such as identifying biologically meaningful heterogeneous subpopulations. In this study, we developed the Latent Cellular Analysis (LCA), a machine learning–based analytical pipeline that combines cosine-similarity measurement by latent cellular states with a graph-based clustering algorithm. LCA provides heuristic solutions for population number inference, dimension reduction, feature selection, and control of technical variations without explicit gene filtering. We show that LCA is robust, accurate, and powerful by comparison with multiple state-of-the-art computational methods when applied to large-scale real and simulated scRNA-seq data. Importantly, the ability of LCA to learn from representative subsets of the data provides scalability, thereby addressing a significant challenge posed by growing sample sizes in scRNA-seq data analysis.

Published
2019

31. Enrichment of heterozygous germline

Author

Jamie L, Maciaszek, Ninad, Oak, Wenan, Chen, Kayla V, Hamilton, Rose B, McGee, Regina, Nuccio, Roya, Mostafavi, Stacy, Hines-Dowell, Lynn, Harrison, Leslie, Taylor, Elsie L, Gerhardt, Annastasia, Ouma, Michael N, Edmonson, Aman, Patel, Joy, Nakitandwe, Alberto S, Pappo, Elizabeth M, Azzato, Sheila A, Shurtleff, David W, Ellison, James R, Downing, Melissa M, Hudson, Leslie L, Robison, Victor, Santana, Scott, Newman, Jinghui, Zhang, Zhaoming, Wang, Gang, Wu, Kim E, Nichols, and Chimene A, Kesserwan

Subjects
Male, Osteosarcoma, Adolescent, RecQ Helicases, Loss of Heterozygosity, pre-B-cell acute lymphoblastic leukemia, Pedigree, Germ Cells, Loss of Function Mutation, Mutation, T-cell acute lymphoblastic leukemias, Humans, Female, Child, craniopharyngioma, Hodgkin lymphoma, Research Article
Abstract

Patients harboring germline pathogenic biallelic variants in genes involved in the recognition and repair of DNA damage are known to have a substantially increased cancer risk. Emerging evidence suggests that individuals harboring heterozygous variants in these same genes may also be at heightened, albeit lesser, risk for cancer. Herein, we sought to determine whether heterozygous variants in RECQL4, the gene encoding an essential DNA helicase that is defective in children with the autosomal recessive cancer-predisposing condition Rothmund–Thomson syndrome (RTS), are associated with increased risk for childhood cancer. To address this question, we interrogated germline sequence data from 4435 pediatric cancer patients at St. Jude Children's Research Hospital and 1127 from the National Cancer Institute Therapeutically Applicable Research to Generate Effective Treatment (TARGET) database and identified 24 (0.43%) who harbored loss-of-function (LOF) RECQL4 variants, including five of 249 (2.0%) with osteosarcoma (OS). These RECQL4 variants were significantly overrepresented in children with OS, the cancer most frequently observed in patients with RTS, as compared to 134,187 noncancer controls in the Genome Aggregation Database (gnomAD v2.1; P = 0.00087, odds ratio [OR] = 7.1, 95% CI, 2.9–17). Nine of the 24 (38%) individuals possessed the same c.1573delT (p.Cys525Alafs) variant located in the highly conserved DNA helicase domain, suggesting that disruption of this domain is central to oncogenesis. Altogether these data expand our understanding of the genetic factors predisposing to childhood cancer and reveal a novel association between heterozygous RECQL4 LOF variants and development of pediatric OS.

Published
2019

32. Incorporating Functional Annotations for Fine-Mapping Causal Variants in a Bayesian Framework Using Summary Statistics

Author

Daniel J. Schaid, Wenan Chen, Shannon K. McDonnell, Lori S. Tillmans, and Stephen N. Thibodeau

Subjects
0301 basic medicine, Quantitative Trait Loci, Investigations, Biology, Quantitative trait locus, Bioinformatics, Machine learning, computer.software_genre, Sensitivity and Specificity, 01 natural sciences, Cross-validation, Contig Mapping, 010104 statistics & probability, 03 medical and health sciences, Annotation, Genetics, Maximum a posteriori estimation, Humans, 0101 mathematics, business.industry, Molecular Sequence Annotation, Bayes factor, Variance (accounting), 030104 developmental biology, Expression quantitative trait loci, Trait, Artificial intelligence, business, computer, Algorithms, Genome-Wide Association Study
Abstract

Functional annotations have been shown to improve both the discovery power and fine-mapping accuracy in genome-wide association studies. However, the optimal strategy to incorporate the large number of existing annotations is still not clear. In this study, we propose a Bayesian framework to incorporate functional annotations in a systematic manner. We compute the maximum a posteriori solution and use cross validation to find the optimal penalty parameters. By extending our previous fine-mapping method CAVIARBF into this framework, we require only summary statistics as input. We also derived an exact calculation of Bayes factors using summary statistics for quantitative traits, which is necessary when a large proportion of trait variance is explained by the variants of interest, such as in fine mapping expression quantitative trait loci (eQTL). We compared the proposed method with PAINTOR using different strategies to combine annotations. Simulation results show that the proposed method achieves the best accuracy in identifying causal variants among the different strategies and methods compared. We also find that for annotations with moderate effects from a large annotation pool, screening annotations individually and then combining the top annotations can produce overly optimistic results. We applied these methods on two real data sets: a meta-analysis result of lipid traits and a cis-eQTL study of normal prostate tissues. For the eQTL data, incorporating annotations significantly increased the number of potential causal variants with high probabilities.

Published
2016

33. Small Sample Kernel Association Tests for Human Genetic and Microbiome Association Studies

Author

Daniel J. Schaid, Wenan Chen, Jun Chen, Ni Zhao, and Michael C. Wu

Subjects
0301 basic medicine, Epidemiology, computer.software_genre, Outcome (probability), 03 medical and health sciences, Exact test, 030104 developmental biology, Kernel method, Overdispersion, Resampling, Kernel (statistics), Statistics, Microbiome, Data mining, computer, Genetics (clinical), Type I and type II errors, Mathematics
Abstract

Kernel machine based association tests (KAT) have been increasingly used in testing the association between an outcome and a set of biological measurements due to its power to combine multiple weak signals of complex relationship with the outcome through the specification of a relevant kernel. Human genetic and microbiome association studies are two important applications of KAT. However, the classic KAT framework relies on large sample theory, and conservativeness has been observed for small sample studies, especially for microbiome association studies. The common approach for addressing the small sample problem relies on computationally intensive resampling methods. Here, we derive an exact test for KAT with continuous traits, which resolve the small sample conservatism of KAT without the need for resampling. The exact test has significantly improved power to detect association for microbiome studies. For binary traits, we propose a similar approximate test, and we show that the approximate test is very powerful for a wide range of kernels including common variant- and microbiome-based kernels, and the approximate test controls the type I error well for these kernels. In contrast, the sequence kernel association tests have slightly inflated genomic inflation factors after small sample adjustment. Extensive simulations and application to a real microbiome association study are used to demonstrate the utility of our method.

Published
2015

34. UMI-count modeling and differential expression analysis for single-cell RNA sequencing

Author

David Finkelstein, Gang Wu, Yan Li, John Easton, Xiang Chen, and Wenan Chen

Subjects
0301 basic medicine, Differential expression analysis, lcsh:QH426-470, T-Lymphocytes, Negative binomial distribution, Method, Computational biology, Biology, Unique molecular identifier, 03 medical and health sciences, Single-cell analysis, Cell Line, Tumor, Humans, lcsh:QH301-705.5, Models, Statistical, Sequence Analysis, RNA, Gene Expression Profiling, RNA, Gene expression profiling, Identifier, lcsh:Genetics, 030104 developmental biology, Negative binomial, lcsh:Biology (General), Single-Cell Analysis, Immunologic Memory, Immunologic memory, Algorithms, Biomarkers
Abstract

Read counting and unique molecular identifier (UMI) counting are the principal gene expression quantification schemes used in single-cell RNA-sequencing (scRNA-seq) analysis. By using multiple scRNA-seq datasets, we reveal distinct distribution differences between these schemes and conclude that the negative binomial model is a good approximation for UMI counts, even in heterogeneous populations. We further propose a novel differential expression analysis algorithm based on a negative binomial model with independent dispersions in each group (NBID). Our results show that this properly controls the FDR and achieves better power for UMI counts when compared to other recently developed packages for scRNA-seq analysis. Electronic supplementary material The online version of this article (10.1186/s13059-018-1438-9) contains supplementary material, which is available to authorized users.

Published
2018

35. From genome-wide associations to candidate causal variants by statistical fine-mapping

Author

Wenan Chen, Daniel J. Schaid, and Nicholas B. Larson

Subjects
0301 basic medicine, Linkage disequilibrium, Clinical study design, Chromosome Mapping, Genome-wide association study, Computational biology, Biology, computer.software_genre, Genome, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Article, 03 medical and health sciences, 030104 developmental biology, Genetics, Humans, Allele, Molecular Biology, computer, Genetics (clinical), Strengths and weaknesses, Alleles, Data integration, Genetic association, Genome-Wide Association Study
Abstract

Advancing from statistical associations of complex traits with genetic markers to understanding the functional genetic variants that influence traits is often a complex process. Fine-mapping can select and prioritize genetic variants for further study, yet the multitude of analytical strategies and study designs makes it challenging to choose an optimal approach. We review the strengths and weaknesses of different fine-mapping approaches, emphasizing the main factors that affect performance. Topics include interpreting results from genome-wide association studies (GWAS), the role of linkage disequilibrium, statistical fine-mapping approaches, trans-ethnic studies, genomic annotation and data integration, and other analysis and design issues.

Published
2018

36. Genetic Risk for Subsequent Neoplasms Among Long-Term Survivors of Childhood Cancer

Author

Donald Yergeau, Melissa M. Hudson, Matthew J. Krasin, Deokumar Srivastava, Stephen V. Rice, Angela Jones, Bhavin Vadodaria, Andrew Thrasher, Xiaotu Ma, Ti Cheng Chang, Braden E. Boone, Celeste Rosencrance, Kelsey Currie, Eric Caron, Aman Patel, Yutaka Yasui, Xin Zhou, Rebecca M. Howell, Courtney Lewis, Carmen L. Wilson, Leslie L. Robison, Ying Shao, Matthew J. Ehrhardt, Jinghui Zhang, Kim E. Nichols, Shuoguo Wang, Qi Liu, Nicholas S. Phillips, Shawn Levy, Heather L. Mulder, Xiang Chen, Wenan Chen, James R. Downing, Michael Edmonson, Ching Hon Pui, Michael Rusch, Yadav Sapkota, Kyla Shelton, Russell J. Brooke, Evadnie Rampersaud, Zhaoming Wang, Chimene Kesserwan, Jennifer Q. Lanctot, Wonjong Moon, Gang Wu, Cynthia Pepper, John Easton, Dale Hedges, and Matthew Lear

Subjects
0301 basic medicine, Oncology, Adult, Male, Risk, Cancer Research, medicine.medical_specialty, Adolescent, Genetic counseling, Cohort Studies, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Breast cancer, Germline mutation, Cancer Survivors, Internal medicine, Neoplasms, medicine, Humans, Genetic Predisposition to Disease, Young adult, Child, Germ-Line Mutation, Aged, Retrospective Studies, Whole Genome Sequencing, business.industry, Cancer, Retrospective cohort study, Neoplasms, Second Primary, Middle Aged, medicine.disease, United States, 030104 developmental biology, 030220 oncology & carcinogenesis, Female, Skin cancer, business, Cohort study
Abstract

Purpose Childhood cancer survivors are at increased risk of subsequent neoplasms (SNs), but the germline genetic contribution is largely unknown. We assessed the contribution of pathogenic/likely pathogenic (P/LP) mutations in cancer predisposition genes to their SN risk. Patients and Methods Whole-genome sequencing (30-fold) was performed on samples from childhood cancer survivors who were ≥ 5 years since initial cancer diagnosis and participants in the St Jude Lifetime Cohort Study, a retrospective hospital-based study with prospective clinical follow-up. Germline mutations in 60 genes known to be associated with autosomal dominant cancer predisposition syndromes with moderate to high penetrance were classified by their pathogenicity according to the American College of Medical Genetics and Genomics guidelines. Relative rates (RRs) and 95% CIs of SN occurrence by mutation status were estimated using multivariable piecewise exponential regression stratified by radiation exposure. Results Participants were 3,006 survivors (53% male; median age, 35.8 years [range, 7.1 to 69.8 years]; 56% received radiotherapy), 1,120 SNs were diagnosed among 439 survivors (14.6%), and 175 P/LP mutations were identified in 5.8% (95% CI, 5.0% to 6.7%) of survivors. Mutations were associated with significantly increased rates of breast cancer (RR, 13.9; 95% CI, 6.0 to 32.2) and sarcoma (RR, 10.6; 95% CI, 4.3 to 26.3) among irradiated survivors and with increased rates of developing any SN (RR, 4.7; 95% CI, 2.4 to 9.3), breast cancer (RR, 7.7; 95% CI, 2.4 to 24.4), nonmelanoma skin cancer (RR, 11.0; 95% CI, 2.9 to 41.4), and two or more histologically distinct SNs (RR, 18.6; 95% CI, 3.5 to 99.3) among nonirradiated survivors. Conclusion The findings support referral of all survivors for genetic counseling for potential clinical genetic testing, which should be prioritized for nonirradiated survivors with any SN and for those with breast cancer or sarcoma in the field of prior irradiation.

Published
2018

37. Polygenic risk scores for major depressive disorder and neuroticism as predictors of antidepressant response: meta-analysis of three treatment cohorts

Author

Nicholas Graham, Joey Ward, Cathryn M. Lewis, Wenan Chen, Richard M. Weinshilboum, Mark A. Frye, Rudolf Uher, Rona J. Strawbridge, Amy Ferguson, Gregory D. Jenkins, Daniel J. Smith, and Joanna M. Biernacka

Subjects
Oncology, medicine.medical_specialty, business.industry, medicine.disease, Random effects model, Neuroticism, Meta-analysis, Internal medicine, Pharmacogenomics, mental disorders, Cohort, Medicine, Major depressive disorder, Antidepressant, business, Depression (differential diagnoses)
Abstract

There are currently no reliable approaches for correctly identifying which patients with major depressive disorder (MDD) will respond well to antidepressant therapy. However, recent genetic advances suggest that Polygenic Risk Scores (PRS) could allow MDD patients to be stratified for antidepressant response. We used PRS for MDD and PRS for neuroticism as putative predictors of antidepressant response within three treatment cohorts: The Genome-based Therapeutic Drugs for Depression (GENDEP) cohort, and 2 sub-cohorts from the Pharmacogenomics Research Network Antidepressant Medication Pharmacogenomics Study PRGN-AMPS (total patient number = 783). Results across cohorts were combined via meta-analysis within a random effects model. Overall, PRS for MDD and neuroticism did not significantly predict antidepressant response but there was a consistent direction of effect, whereby greater genetic loading for both MDD (best MDD result, p < 5*10-5 MDD-PRS at 4 weeks, β = -0.019, S.E = 0.008, p = 0.01) and neuroticism (best neuroticism result, p < 0.1 neuroticism-PRS at 8 weeks, β = -0.017, S.E = 0.008, p = 0.03) were associated with less favourable response. We conclude that the PRS approach may offer some promise for treatment stratification in MDD and should now be assessed within larger clinical cohorts.

Published
2018

38. Metabolic heterogeneity underlies reciprocal fates of T

Author

Seon Ah Lim, Hongbo Chi, Yogesh Dhungana, Yong Cheng, Thanh-Long M. Nguyen, Xiang Chen, Kai Yang, Wenan Chen, John Easton, Yiping Fan, Peer W. F. Karmaus, Sherri Rankin, Beisi Xu, Andrés A. Herrada, Celeste Rosencrance, Geoffrey Neale, and Peter Vogel

Subjects
0301 basic medicine, Male, Autoimmunity, mTORC1, Biology, Mechanistic Target of Rapamycin Complex 1, medicine.disease_cause, Article, Autoimmune Diseases, 03 medical and health sciences, Mice, 0302 clinical medicine, medicine, T Cell Transcription Factor 1, Humans, Animals, Transcription factor, Neuroinflammation, Inflammation, Multidisciplinary, Effector, Sequence Analysis, RNA, TOR Serine-Threonine Kinases, Stem Cells, Transdifferentiation, Regulatory-Associated Protein of mTOR, Acquired immune system, Cell biology, Tumor Necrosis Factor Receptor Superfamily, Member 7, Disease Models, Animal, 030104 developmental biology, 030220 oncology & carcinogenesis, Cell Transdifferentiation, Th17 Cells, Female, Single-Cell Analysis, T-Box Domain Proteins, Immunologic Memory, Signal Transduction
Abstract

A defining feature of adaptive immunity is the development of long-lived memory T cells to curtail infection. Recent studies have identified a unique stem-like T-cell subset amongst exhausted CD8-positive T cells in chronic infection1-3, but it remains unclear whether CD4-positive T-cell subsets with similar features exist in chronic inflammatory conditions. Amongst helper T cells, TH17 cells have prominent roles in autoimmunity and tissue inflammation and are characterized by inherent plasticity4-7, although how such plasticity is regulated is poorly understood. Here we demonstrate that TH17 cells in a mouse model of autoimmune disease are functionally and metabolically heterogeneous; they contain a subset with stemness-associated features but lower anabolic metabolism, and a reciprocal subset with higher metabolic activity that supports transdifferentiation into TH1-like cells. These two TH17-cell subsets are defined by selective expression of the transcription factors TCF-1 and T-bet, and by discrete levels of CD27 expression. We also identify signalling via the kinase complex mTORC1 as a central regulator of TH17-cell fate decisions by coordinating metabolic and transcriptional programmes. TH17 cells with disrupted mTORC1 signalling or anabolic metabolism fail to induce autoimmune neuroinflammation or to develop into TH1-like cells, but instead upregulate TCF-1 expression and acquire stemness-associated features. Single-cell RNA sequencing and experimental validation reveal heterogeneity in fate-mapped TH17 cells, and a developmental arrest in the TH1 transdifferentiation trajectory upon loss of mTORC1 activity or metabolic perturbation. Our results establish that the dichotomy of stemness and effector function underlies the heterogeneous TH17 responses and autoimmune pathogenesis, and point to previously unappreciated metabolic control of plasticity in helper T cells.

Published
2017

39. PedBLIMP: Extending Linear Predictors to Impute Genotypes in Pedigrees

Author

Wenan Chen and Daniel J. Schaid

Subjects
Genetics, Linkage disequilibrium, Multivariate statistics, Epidemiology, Covariance matrix, Statistics, Pedigree chart, Linear prediction, Multivariate normal distribution, Biology, Identity by descent, Genetics (clinical), Imputation (genetics)
Abstract

Recently, Wen and Stephens (Wen and Stephens [2010] Ann Appl Stat 4(3):1158-1182) proposed a linear predictor, called BLIMP, that uses conditional multivariate normal moments to impute genotypes with accuracy similar to current state-of-the-art methods. One novelty is that it regularized the estimated covariance matrix based on a model from population genetics. We extended multivariate moments to impute genotypes in pedigrees. Our proposed method, PedBLIMP, utilizes both the linkage-disequilibrium (LD) information estimated from external panel data and the pedigree structure or identity-by-descent (IBD) information. The proposed method was evaluated on a pedigree design where some individuals were genotyped with dense markers and the rest with sparse markers. We found that incorporating the pedigree/IBD information can improve imputation accuracy compared to BLIMP. Because rare variants usually have low LD with other single-nucleotide polymorphisms (SNPs), incorporating pedigree/IBD information largely improved imputation accuracy for rare variants. We also compared PedBLIMP with IMPUTE2 and GIGI. Results show that when sparse markers are in a certain density range, our method can outperform both IMPUTE2 and GIGI.

Published
2014

40. Enrichment of heterozygous germline RECQL4 loss-of-function variants in pediatric osteosarcoma

Author

Jamie L. Maciaszek, Zhaoming Wang, Michael N. Edmonson, James R. Downing, Gang Wu, Melissa M. Hudson, Chimene Kesserwan, Victor M. Santana, Ninad Oak, Lynn H Harrison, Elizabeth M Azzato, Kayla V. Hamilton, Kim E. Nichols, Aman Patel, Annastasia A. Ouma, Sheila A. Shurtleff, David W. Ellison, Elsie L. Gerhardt, Alberto S. Pappo, Regina Nuccio, Wenan Chen, Joy Nakitandwe, Rose B. McGee, Scott Newman, Roya Mostafavi, Leslie L. Robison, Jinghui Zhang, Leslie Taylor, and Stacy Hines-Dowell

Subjects
Genetics, Cancer, General Medicine, Odds ratio, Biology, medicine.disease_cause, medicine.disease, Pediatric cancer, Germline, medicine, Osteosarcoma, Carcinogenesis, Gene, Loss function
Abstract

Patients harboring germline pathogenic biallelic variants in genes involved in the recognition and repair of DNA damage are known to have a substantially increased cancer risk. Emerging evidence suggests that individuals harboring heterozygous variants in these same genes may also be at heightened, albeit lesser, risk for cancer. Herein, we sought to determine whether heterozygous variants in RECQL4, the gene encoding an essential DNA helicase that is defective in children with the autosomal recessive cancer-predisposing condition Rothmund–Thomson syndrome (RTS), are associated with increased risk for childhood cancer. To address this question, we interrogated germline sequence data from 4435 pediatric cancer patients at St. Jude Children's Research Hospital and 1127 from the National Cancer Institute Therapeutically Applicable Research to Generate Effective Treatment (TARGET) database and identified 24 (0.43%) who harbored loss-of-function (LOF) RECQL4 variants, including five of 249 (2.0%) with osteosarcoma (OS). These RECQL4 variants were significantly overrepresented in children with OS, the cancer most frequently observed in patients with RTS, as compared to 134,187 noncancer controls in the Genome Aggregation Database (gnomAD v2.1; P = 0.00087, odds ratio [OR] = 7.1, 95% CI, 2.9–17). Nine of the 24 (38%) individuals possessed the same c.1573delT (p.Cys525Alafs) variant located in the highly conserved DNA helicase domain, suggesting that disruption of this domain is central to oncogenesis. Altogether these data expand our understanding of the genetic factors predisposing to childhood cancer and reveal a novel association between heterozygous RECQL4 LOF variants and development of pediatric OS.

Published
2019

41. Rare SERINC2 variants are specific for alcohol dependence in individuals of European descent

Author

Kesheng Wang, Guimin Gao, Heping Zhang, Xingguang Luo, Xiang Yang Zhang, Wenan Chen, Fengyu Zhang, John H. Krystal, Lingjun Zuo, Xiaoping Wang, and Chiang-Shan R. Li

Subjects
Proband, Genetics, Alcohol dependence, Case-control study, Genome-wide association study, Biology, Minor allele frequency, Polymorphism (computer science), Genotype, Molecular Medicine, General Pharmacology, Toxicology and Pharmaceutics, Molecular Biology, Genetics (clinical), Genetic association
Abstract

OBJECTIVES We have previously reported a top-ranked risk gene [i.e., serine incorporator 2 gene (SERINC2)] for alcohol dependence in individuals of European descent by analyzing the common variants in a genome-wide association study. In the present study, we comprehensively examined the rare variants [minor allele frequency (MAF)

Published
2013

42. Ideal Midline Detection Using Automated Processing of Brain CT Image

Author

Ashwin Belle, Kevin R. Ward, Sharad Shandilya, Yang Tang, Charles Cockrell, Xuguang Qi, Kayvan Najarian, Wenan Chen, and Rosalyn Hobson Hargraves

Subjects
Brain ct, Ideal (set theory), business.industry, Computer science, Slice selection, Process (computing), Image processing, Clinical settings, Pattern recognition, Artificial intelligence, business, Rotation (mathematics), Image (mathematics)
Abstract

Brain ideal midline estimation is vital in medical image processing, especially in analyzing the severity of a brain injury in clinical environments. We propose an automated computer-aided ideal midline estimation system with a two-step process. First, a CT Slice Selection Algorithm (SSA) can automatically select an appropriate subset of slices from a large number of raw CT images using the skull’s anatomical features. Next, an ideal midline detection is implemented on the selected subset of slices. An exhaustive symmetric position search is performed based on the anatomical features in the detection. In order to enhance the accuracy of the detection, a global rotation assumption is applied to determine the ideal midline by fully considering the connection between slices. Experimental results of the multi-stage algorithm were assessed on 3313 CT slices of 70 patients. The accuracy of the proposed system is 96.9%, which makes it viable for use under clinical settings.

Published
2013

43. A Generalized Sequential Bonferroni Procedure Using Smoothed Weights for Genome-Wide Association Studies Incorporating Information on Hardy-Weinberg Disequilibrium among Cases

Author

Guolian Kang, Huaizen Qin, Guimin Gao, Qizhai Li, David B. Allison, Chuanyu Sun, Jiexun Wang, Nianjun Liu, Kellie J. Archer, Bo Jiang, and Wenan Chen

Subjects
Linkage disequilibrium, Disequilibrium, Polymorphism, Single Nucleotide, Linkage Disequilibrium, symbols.namesake, Databases, Genetic, Statistics, Genetic model, Genetics, medicine, Humans, Computer Simulation, Genetics (clinical), Mathematics, Genetic association, Original Paper, Models, Genetic, Multiplicative function, Computational Biology, Trend analysis, Bonferroni correction, Case-Control Studies, Multiple comparisons problem, symbols, medicine.symptom, Algorithms, Genome-Wide Association Study
Abstract

Background/Objectives: For genome-wide association studies (GWAS) with case-control designs, one of the most widely used association tests is the Cochran-Armitage (CA) trend test assuming an additive mode of inheritance. The CA trend test often has higher power than other association tests under additive and multiplicative disease models. However, it can have very low power under a recessive disease model in GWAS. Although tests (such as MAX3) robust to different genetic models have been developed, they often have relatively lower power than the CA trend test under additive and multiplicative models. The goal of this study is to propose an efficient method that not only has higher power than the CA trend test under dominant and recessive models but also maintains the power of the CA trend test under additive and multiplicative models. Methods: We employed the generalized sequential Bonferroni (GSB) procedure of Holm to incorporate information from a Hardy-Weinberg disequilibrium (HWD) test into the CA trend test based on estimating weights from the p values of the HWD test. We proposed to smooth the weights to reduce possible noise. Results and Conclusions: Results from extensive simulation studies showed that the proposed GSB procedure can achieve the goal described above.

Published
2011

44. Precision Medicine for Sickle Cell Disease through Whole Genome Sequencing

Author

Andrew Thrasher, Jeffrey D. Lebensburger, Pavel Sumazin, Winfred C. Wang, Akshay Sharma, Wenan Chen, Nidal Boulos, Yutaka Yasui, Ti-Cheng Chang, Lance E. Palmer, Donald Yergeau, Michael Rusch, Heather L. Mulder, Yadav Sapkota, Celeste Rosencrance, Gang Wu, Jinghui Zhang, Martha Villavicencio, Michael R. DeBaun, Wenjian Bi, Jason R. Hodges, Jane S. Hankins, Mitchell J. Weiss, James R. Downing, Shuoguo Wang, Shawn Levy, John Easton, Amanda M. Brandow, Jeremie H. Estepp, Yong Cheng, Vivien A. Sheehan, Guolian Kang, Evadnie Rampersaud, and Xing Tang

Subjects
Immunology, Cell, Merkel cell polyomavirus, 02 engineering and technology, Computational biology, Disease, 01 natural sciences, Biochemistry, Medicine, Whole genome sequencing, biology, business.industry, 010401 analytical chemistry, Cell Biology, Hematology, 021001 nanoscience & nanotechnology, Precision medicine, medicine.disease, biology.organism_classification, Sickle cell anemia, 0104 chemical sciences, medicine.anatomical_structure, 0210 nano-technology, business, Vaso-occlusive crisis, Imputation (genetics)
Abstract

Although sickle cell disease (SCD) is a monogenic disorder, the severity and specific organ dysfunction and failure are strongly influenced by genetic modifiers. Rapid identification of all modifiers in patients and well-phenotyped cohorts will better define the impact of relevant variants on clinical status, inform disease biology, and identify new therapeutic strategies. We created the Sickle Genome Project (SGP), a whole genome sequencing (WGS) strategy, to define genomic variation and modifiers of SCD. We performed WGS on 871 African American SCD patients from St. Jude Children's Research Hospital who participated in the Sickle Cell Clinical Research and Intervention Program (SCCRIP, Hankins et al. Pediatr Blood Cancer, 2018) and Texas Children's Hospital Hematology Center (TCHC). We developed robust pipelines for accurate detection of single nucleotide polymorphisms (SNPs), identification of structural variants and data retrieval/sharing via the St. Jude Cloud platform (to be described elsewhere). Notable findings include: 1) Confirmed associations of common genetic modifiers with SCD phenotypes, including levels of fetal hemoglobin (BCL11A, HBS1L-MYB, HBB), bilirubin (UGT1A1), and microalbuminuria (APOL1). Additional associations approaching genome-wide significance require further investigation, including replication in independent samples. 2) Improved determination of the SCD modifier α-thalassemia. The most common α-thalassemia mutations in SCD are 3.7 kb or 4.2 kb deletions (-α3.7 and -α4.2 alleles), which arose from recombination between homologous HBA1 and HBA2 genes and are difficult to map using standard WGS reads. Three independent crossover events are described for -α3.7 and one for -α4.2 in SCD cohorts. We developed a novel approach to identify α-globin gene deletions by local de novo assembly of WGS data and coverage depth analysis. We identified 5 -α3.7 alleles (frequencies 0.77-32.12%) and 7 -α4.2 alleles (frequencies 0.19-5.77%). Collectively, the frequency of all -α alleles was 57%, reflecting at least 12 distinct recombination events, greatly exceeding previously published counts. These findings better define the evolution of α-globin genes to allow improved understanding of their regulation and influence on SCD. 3) Characterization of β0-thalassemia alleles. Mutations in the extended β-globin locus influence SCD phenotypes. Five SGP patients had large β-globin (HBB) deletions associated with elevated fetal hemoglobin, which ameliorates symptoms of SCD. Twenty-three patients had HbSβ0-thalassemia, which reduces the severity of some SCD phenotypes. Overall, 48.6% (18/37) of patients clinically designated as HbSβ0 -thalassemia had no identified β-thalassemia mutation. Moreover, 4/680 patients (0.6%) designated HbSS were identified to be β0-thalassemia heterozygotes. The MCV, RBC and %HbA2 distributions overlapped substantially in correct vs. incorrect genotype assignments. Improved discrimination of HbSβ0 vs HbSS genotypes by WGS will better define associated phenotype differences to impact clinical care. 4) Determination of a genetic variant linked to vaso-occlusive crisis (VOC). Previously, a single GWAS study linked rs3115229, located 63.7 kb 5′ upstream of the KIAA1109 gene, with VOC at borderline significance (P = 5.63 × 10−8) (Chaturvedi et al, Blood 130, 2017). Using WGS data for 327 SGP participants (HbSS or HbSβ0-thalassemia) enrolled in the SCCRIPP study, we found strong association (p = 7 x 10-5) between the onset of VOC and a 4-SNP diplotype within an adjacent LD block of the KIAA1109-TENR-IL2-IL21 region (chr4: 122.8Mb - 123.8Mb) which has been previously associated with numerous inflammatory disorders. We validated this association using imputed genome-wide array data in an independent group of SCD patients (Sleep and Asthma Cohort, n= 181 patients, p = 0.05) (Cohen et al, Ann Am Thorac Soc, 2016). This works provides confirmation that the region surrounding KIAA1109 is associated with pain crisis in SCD. Our studies provide new information on the genomic architecture of SCD patients and delineate a consolidated approach for future applications of precision medicine. Disclosures Hankins: Novartis: Research Funding; Global Blood Therapeutics: Research Funding; NCQA: Consultancy; bluebird bio: Consultancy. Estepp:Global Blood Therapeutics: Consultancy, Research Funding; ASH Scholar: Research Funding; NHLBI: Research Funding; Daiichi Sankyo: Consultancy.

Published
2018

45. Abstract 5297: LCA: A robust and scalable algorithm to reveal subtle diversity in large-scale single-cell RNA-Seq data

Author

Bensheng Ju, Xiang Chen, Wenan Chen, Changde Cheng, John Easton, Yan Li, and Celeste Rosencrance

Subjects
Cancer Research, education.field_of_study, Computer science, Heuristic (computer science), business.industry, Dimensionality reduction, Population, Inference, Feature selection, Machine learning, computer.software_genre, Oncology, Scalability, Graph (abstract data type), Artificial intelligence, education, business, Cluster analysis, computer
Abstract

Single-cell RNA sequencing (scRNA-seq) emerges as a powerful tool to characterize cell-to-cell variation and dynamics in a seemingly homogenous population. Efficient and affordable, scRNA-seq is gaining in popularity in both basic and translational biological research areas. However, significant challenges arise in the analysis of scRNA-seq data, including low signal-to-noise ratio with high data sparsity, rising scalability hurdles with hundreds of thousands of cells, and more. Due to inherent complexities in scRNA-seq data, the performance of currently available algorithms may not always be optimal even for fundamental tasks such as identifying heterogeneous subpopulations in the data. In this study, we developed Latent Cellular Analysis (LCA), a machine learning based analytical pipeline that combines similarity measurement by latent cellular states with a graph-based clustering algorithm. LCA features a dual-space model search for both the optimal number of subpopulations and the informative cellular states distinguishing them. LCA provides heuristic solutions for population number inference, dimension reduction, feature selection and confounding factor removal without explicit gene filtering. LCA has proved to be robust, accurate and powerful by comparison to multiple state-of-the-art computational methods on large-scale real and simulated scRNA-seq data. Importantly, LCA's ability to learn from representative subsets of the data provides scalability, thereby addressing a significant challenge for growing sample size in scRNA-seq data analysis. Citation Format: Changde Cheng, John Easton, Celeste Rosencrance, Yan Li, Bensheng Ju, Wenan Chen, Xiang Chen. LCA: A robust and scalable algorithm to reveal subtle diversity in large-scale single-cell RNA-Seq data [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5297.

Published
2018

46. Abstract 3007: Monogenic and polygenic associations with subsequent breast cancer risk in survivors of childhood cancer: The St. Jude Lifetime Cohort Study (SJLIFE)

Author

Shawn Levy, Aman Patel, Russell J. Brooke, Wonjong Moon, Xiaotu Ma, Heather L. Mulder, A. R. Jones, Yadav Sapkota, Zhaoming Wang, Kim E. Nichols, Xin Zhou, Ti-Cheng Chang, Xiang Chen, Wenan Chen, Michael N. Edmonson, Gang Wu, Melissa M. Hudson, Yutaka Yasui, Matthew J. Ehrhardt, Chimene Kesserwan, James R. Downing, Rebecca M. Howell, John Easton, Courtney Lewis, Qi Liu, Ying Shao, Nicholas S. Phillips, Leslie L. Robison, Michael Rusch, Braden E. Boone, Stephen V. Rice, Evadnie Rampersaud, Carmen L. Wilson, Cynthia Pepper, and Jinghui Zhang

Subjects
Oncology, Cancer Research, medicine.medical_specialty, education.field_of_study, business.industry, Population, Cancer, Odds ratio, medicine.disease, Penetrance, Standardized mortality ratio, Breast cancer, Internal medicine, Etiology, Medicine, business, education, Cohort study
Abstract

The allelic spectrum of the genetic architecture of breast cancer (BC) susceptibility includes at least 172 common variants with small effect sizes (per-allele odds ratio range: 1.03-1.31), plus rare variants with high (BRCA1, BRCA2, CHD1, PTEN, STK11, TP53) or moderate penetrance (ATM, CHEK2, NBN, NF1, PALB2). While these common variants confer modest risk individually, their combined effect in the form of a polygenic risk score (PRS) may be substantial. The SJLIFE whole-genome sequencing (WGS) data provide a unique opportunity to evaluate common and rare sets of genetic variants jointly, along with treatment exposures, for their contributions to subsequent BC risk in adult survivors of childhood cancer. This analysis utilized WGS data from 1131 females of European ancestry [median age at last follow-up: 34.9 years (range: 6.2-68.6)] of whom 47 were diagnosed with a subsequent BC (median age at BC 40.3 years, range: 25.5-53.0). The PRS (mean, 10.1; range, 8.3-12.2) was calculated using a weighted sum of the number of risk alleles and their log per-allele odds ratio from Michailidou et al. (Nature, Nov. 2017). A total of 34 (3.0%) survivors were carriers of pathogenic or likely pathogenic (P/LP) variants in the 11 BC predisposition genes (listed above). The standardized incidence ratio (SIR) for BC was 6.7 (95% CI, 5.0-8.9) for survivors relative to the SEER population. The SIR varied from 3.7 (95% CI, 1.4-8.1) for survivors with PRS in the 1st quintile to 3.6 (95% CI, 1.2-8.3), 7.3 (95% CI, 3.8-12.7), 7.6 (95% CI, 3.6-14.0), and 11.4 (95% CI, 6.8-18.1) in the 2nd, 3rd, 4th, and 5th quintiles, respectively. In the multivariable model adjusting for age at diagnosis, chest irradiation, alkylating agents, anthracyclines, attained age, and significant genotype eigenvectors, the relative rates (RR) of BC were 16.5 (95% CI, 6.4 - 42.6), 11.5 (95% CI, 4.4-29.9), and 47.8 (95% CI, 8.2-278.3) for carriers vs. non-carriers of the P/LP variants among all survivors, and survivors with and without chest irradiation, respectively. The RR per one standard deviation of PRS were 1.5 (95% CI, 1.1-1.9), 1.6 (95% CI, 1.2-2.0) and 1.3 (95% CI, 0.7-2.2), respectively, for the same three groups. Importantly, PRS was significantly associated with the rate of subsequent BC under the age of 45 (RR, 1.7; 95% CI, 1.3-2.2) but not over 45 (RR, 0.9; 95% CI, 0.6-1.5). To our knowledge, this is the first assessment of the joint effects of rare and common genetic variations implicated in the etiology of BC in the general population, among long-term survivors of childhood cancer. Clinically, we anticipate that an individual genetic profile utilizing common susceptibility loci in combination with rare P/LP variants will inform an improved strategy for personalized BC risk stratification and management for childhood cancer survivors. Further replication studies are warranted to confirm and refine our findings. Citation Format: Zhaoming Wang, Carmen L. Wilson, Qi Liu, John Easton, Heather L. Mulder, Michael Rusch, Michael Edmonson, Shawn Levy, Aman Patel, Ying Shao, Ti-Cheng Chang, Stephen V. Rice, Yadav Sapkota, Russell J. Brooke, Wonjong Moon, Evadnie Rampersaud, Xiaotu Ma, Cynthia Pepper, Xin Zhou, Xiang Chen, Wenan Chen, Angela Jones, Braden Boone, Matthew J. Ehrhardt, Rebecca M. Howell, Nicholas Phillips, Courtney Lewis, Chimene A. Kesserwan, Gang Wu, Kim E. Nichols, James R. Downing, Melissa M. Hudson, Jinghui Zhang, Yutaka Yasui, Leslie L. Robison. Monogenic and polygenic associations with subsequent breast cancer risk in survivors of childhood cancer: The St. Jude Lifetime Cohort Study (SJLIFE) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3007.

Published
2018

47. Small Sample Kernel Association Tests for Human Genetic and Microbiome Association Studies

Author

Jun, Chen, Wenan, Chen, Ni, Zhao, Michael C, Wu, and Daniel J, Schaid

Subjects
Gastrointestinal Tract, Models, Genetic, Microbiota, Humans, Computer Simulation, Genetic Association Studies, Article, Diet
Abstract

Kernel machine based association tests (KAT) have been increasingly used in testing the association between an outcome and a set of biological measurements due to its power to combine multiple weak signals of complex relationship with the outcome through the specification of a relevant kernel. Human genetic and microbiome association studies are two important applications of KAT. However, the classic KAT framework relies on large-sample theory, and conservativeness has been observed for small-sample studies, especially for microbiome association studies. The common approach for addressing the small-sample problem relies on computationally intensive resampling methods. Here, we derive an exact test for KAT with continuous traits, which resolves the small-sample conservatism of KAT without the need for resampling. The exact test has significantly improved power to detect association for microbiome studies. For binary traits, we propose a similar approximate test, and we show that the approximate test is very powerful for a wide range of kernels including common variant- and microbiome-based kernels, and the approximate test produces correct null distribution of association p-values for these kernels. In contrast, the sequence kernel association tests (SKAT) have slightly inflated genomic inflation factors after small-sample adjustment. Extensive simulations and application to a real microbiome association study are used to demonstrate the utility of our method.

Published
2015

48. Abstract 3001: Germline mutations in cancer predisposition genes and risk for subsequent neoplasms among long-term survivors of childhood cancer in the St. Jude Lifetime Cohort

Author

Yutaka Yasui, Donald Yergeau, Heather L. Mulder, Kyla Shelton, Yadav Sapkota, Eric Caron, Michael N. Edmonson, Stephen V. Rice, Evadnie Rampersaud, Aman Patel, Zhaoming Wang, Ti-Cheng Chang, Jinghui Zhang, Kelsey Currie, Bhavin Vadodaria, A. R. Jones, Qi Liu, Carmen L. Wilson, Xin Zhou, Melissa M. Hudson, Shuoguo Wang, Shawn Levy, John Easton, James R. Downing, Gang Wu, Xiaotu Ma, Dale J. Hedges, Kim E. Nichols, Celeste Rosencrance, Russell J. Brooke, Wonjong Moon, Andrew Thrasher, Cynthia Pepper, Xiang Chen, Wenan Chen, Jennifer Q. Lanctot, Michael Rusch, Chimene Kesserwan, Deo Kumar Srivastava, Leslie L. Robison, Matthew Lear, and Braden E. Boone

Subjects
Gynecology, Oncology, Cancer Research, medicine.medical_specialty, business.industry, Cancer predisposition, Childhood cancer, 03 medical and health sciences, 0302 clinical medicine, Germline mutation, 030220 oncology & carcinogenesis, Internal medicine, Cohort, medicine, 030212 general & internal medicine, business, Gene
Abstract

Childhood cancer survivors are at increased risk of subsequent neoplasms (SN), largely considered to be therapy-related. Studies of cancer predisposition genes (CPGs) and risk of SN among long-term survivors are lacking. We characterized germline mutations in CPGs in childhood cancer survivors to determine their contribution to SN risk. Whole genome (30x) and exome (100x) sequencing was performed for 2988 5+ year survivors of childhood cancer (1629 leukemia/lymphoma, 332 CNS, 1027 other solid tumors, 53% male, median follow-up 28 [range 6-55] years). Survivors underwent a comprehensive clinical assessment, treatment exposures were abstracted from medical records, and SN were validated by pathology reports. Germline mutations in 63 CPGs were classified using the American College of Medical Genetics and Genomics guidelines as previously described (Zhang et al. NEJM 2015). Logistic regression, adjusting for age, sex and race, was used to evaluate associations between mutation status, cancer therapy and the SN risk. 1062 SNs were diagnosed in 437 survivors, of whom 98 developed ≥2 histologically distinct SNs. Median age at SN and time to first SN was 38.2 (range 3.3-67.4) and 29.2 (0.9-48.4) years, respectively. Common SNs were basal cell carcinoma (542 in 153 survivors), meningioma (201 in 100), thyroid (64 in 64), and breast cancer (58 in 50). Cumulative incidence of SN at age 45 was 25.5% (95% CI: 22.9-27.9). 169 survivors (5.7%) had a pathogenic/likely pathogenic (P/LP) mutation in a CPG, consisting of 97 single nucleotide variations, 63 insertion/deletions and 9 copy number alterations (49% of mutations not in ClinVar). Frequently mutated genes were: RB1 (n=41), NF1 (n=22), BRCA2 (n=13), BRCA1 (n=12) and TP53 (n=10). Our data confirmed known associations between CPG mutations and specific primary diagnoses including RB1 mutations in 32 of 41 (78%) of bilateral and 7 of 57 (12%) of unilateral retinoblastoma survivors, 22 NF1 (20 of 332 CNS survivors), 4 SUFU (all in medulloblastoma survivors) and 5 WT1 mutations (all in Wilms’ tumor survivors). Analyses revealed novel associations between CPG mutations and SN risk. Among 1326 survivors not exposed to radiation therapy (non-RT), 62 SNs developed in 54 survivors, of which 15 (24.2%) occurred in P/LP mutation carriers. Non-RT exposed survivors with a P/LP mutation had an increased risk of SN (OR=5.6, 95% CI=2.6-12.0, P Citation Format: Zhaoming Wang, Carmen L. Wilson, John Easton, Dale Hedges, Qi Liu, Gang Wu, Michael Rusch, Michael Edmonson, Shawn Levy, Jennifer Q. Lanctot, Eric Caron, Kyla Shelton, Kelsey Currie, Matthew Lear, Heather L. Mulder, Donald Yergeau, Celeste Rosencrance, Bhavin Vadodaria, Yadav Sapkota, Russell J. Brooke, Wonjong Moon, Evadnie Rampersaud, Xiaotu Ma, Shuoguo Wang, Ti-Cheng Chang, Stephen Rice, Andrew Thrasher, Aman Patel, Cynthia Pepper, Xin Zhou, Xiang Chen, Wenan Chen, Angela Jones, Braden Boone, Deo Kumar Srivastava, Chimene A. Kesserwan, Kim E. Nichols, James R. Downing, Melissa M. Hudson, Yutaka Yasui, Leslie L. Robison, Jinghui Zhang. Germline mutations in cancer predisposition genes and risk for subsequent neoplasms among long-term survivors of childhood cancer in the St. Jude Lifetime Cohort [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3001. doi:10.1158/1538-7445.AM2017-3001

Published
2017

49. A high-risk genetic profile for premature menopause (PM) in childhood cancer survivors (CCS) exposed to gonadotoxic therapy: A report from the St. Jude Lifetime Cohort (SJLIFE) and Childhood Cancer Survivor Study (CCSS)

Author

Stephen J. Chanock, Rebecca M. Howell, Yutaka Yasui, Daniel M. Green, Gregory T. Armstrong, Lindsay M. Morton, Carmen L. Wilson, Gang Wu, Cindy Im, Wassim Chemaitilly, Wenan Chen, Matthew J. Krasin, Zhaoming Wang, Zhenghong Li, Leslie L. Robison, Melissa M. Hudson, Smita Bhatia, Russell J. Brooke, Jinghui Zhang, and Charles A. Sklar

Subjects
Oncology, Cancer Research, medicine.medical_specialty, business.industry, Childhood cancer, Childhood Cancer Survivor Study, Genetic profile, Increased risk, Internal medicine, Cohort, Medicine, business, Premature Menopause, SNP array
Abstract

10502 Background: CCS are at increased risk of therapy-related PM but contribution of genetic factors is unknown. Methods: Using Affymetrix 6.0 SNP array, treatment exposures [cumulative alkylating agents (AA), ovarian radiotherapy (RT) dose] and clinically-assessed PM status (menopause < 40 years), a genome-wide association analysis was conducted using logistic regression in SJLIFE. A cluster of most statistically significant SNPs on chr4 was further examined, stratifying by ovarian RT and AA. Replication was performed using self-reported PM in CCSS. Results: PM was diagnosed in 30 of 805 SJLIFE female survivors. A loci of 13 SNPs in 4 linkage disequilibrium blocks (mean r2 = 0.51) in the upstream regulatory region of Neuropeptide Receptor 2 ( NPY2R) was identified with a minimum p-value of 3.3x10-7 (all -5). ENCODE gene expression, motifs, and chromatin remodeling data suggest these SNPs alter transcription factor binding sites, potentially disrupting neuroendocrine events necessary for ovulation. Among CCS exposed to ovarian RT, homozygous carriers of a risk profile (RP) defined by 4 of the 13 SNPs, found in over half of the survivors with clinically-diagnosed PM and 1 in 7 in the general population, significantly increased PM risk (odds ratio (OR) 25.8, p=5.4x10-5) (Table). This finding was replicated using self-reported PM status of 1644 survivors in CCSS (OR 4.2, p=4.6x10-4). Prediction of clinically-diagnosed PM (in the SJLIFE discovery cohort) improved by adding the RP to the model with age and treatment (area under ROC curve 0.84 vs. 0.93, p=0.011). Conclusions: The common RP is associated with PM risk in pediatric cancer survivors and may have potential for clinical application. [Table: see text]

Published
2017

50. A Generalized Sequential Bonferroni Procedure for GWAS in Admixed Populations Incorporating Admixture Mapping Information into Association Tests

Author

Nianjun Liu, Xiangning Chen, Kellie J. Archer, Xiaofeng Zhu, Weiwei Ouyang, Wenan Chen, Chunfeng Ren, Guimin Gao, Xingguang Luo, Huaizhen Qin, and Shumei Sun

Subjects
Association test, Linkage disequilibrium, Genetic admixture, Genome-wide association study, Biology, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Article, symbols.namesake, immune system diseases, Polymorphism (computer science), hemic and lymphatic diseases, Genetics, Humans, Computer Simulation, 10. No inequality, neoplasms, Genetics (clinical), Models, Genetic, Extramural, Chromosome Mapping, Atherosclerosis, eye diseases, Black or African American, Bonferroni correction, symbols, population characteristics, Genome-Wide Association Study
Abstract

Objective: To develop effective methods for GWAS in admixed populations such as African Americans. Methods: We show that, when testing the null hypothesis that the test SNP is not in background linkage disequilibrium with the causal variants, several existing methods cannot control well the family-wise error rate (FWER) in the strong sense in GWAS. These existing methods include association tests adjusting for global ancestry and joint association tests that combine statistics from admixture mapping tests and association tests that correct for local ancestry. Furthermore, we describe a generalized sequential Bonferroni (smooth-GSB) procedure for GWAS that incorporates smoothed weights calculated from admixture mapping tests into association tests that correct for local ancestry. We have applied the smooth-GSB procedure to analyses of GWAS data on American Africans from the Atherosclerosis Risk in Communities (ARIC) Study. Results: Our simulation studies indicate that the smooth-GSB procedure not only control the FWER, but also improves statistical power compared with association tests correcting for local ancestry. Conclusion: The smooth-GSB procedure can result in a better performance than several existing methods for GWAS in admixed populations.

Published
2014

Catalog

Books, media, physical & digital resources
See catalog results