Alexander Marson, MD, PhD

Assistant Professor
Department of Microbiology and Immunology
[email protected]
Research Description: 

Our lab's goal is to understand the genetic circuits that control human immune cell function in health and disease. We have begun to identify how genetic risk variants for autoimmune diseases disrupt immune cell circuits (Farh and Marson et al., Nature 2015; Simeonov et al., Nature, 2017), and how pathogenic circuits may be targeted with novel therapeutics (Xiao et al., Immunity 2014). My lab has developed new tools for efficient CRISPR genome engineering in primary human T cells (Schumann et al., PNAS 2015; Roth et al., Nature 2018; Nguyen et al. Nature Biotech 2020). Now we are pursuing a comprehensive strategy to test how coding and non-coding genetic variation control essential programs in the human immune system (Simeonov et al. Nature, 2017; Shifrut et al., Cell 2018; Roth et al., Cell 2020; Cortez et al., Nature 2020; Schumann et al., Nature Immunology 2020). Genome engineered human T cells hold great potential for the next generation of cell-based therapies for cancer, autoimmunity and infectious diseases.

Primary Thematic Area: 
Human Genetics
Secondary Thematic Area: 
Immunology
Research Summary: 
Our group employs an integrative genomics approach to decode the genetic programs governing CD4+ T-cell sub-specialization.

Websites

Featured Publications: 

Generation of knock-in primary human T cells using Cas9 ribonucleoproteins.

Proceedings of the National Academy of Sciences of the United States of America

Schumann K, Lin S, Boyer E, Simeonov DR, Subramaniam M, Gate RE, Haliburton GE, Ye CJ, Bluestone JA, Doudna JA, Marson A

Genetic and epigenetic fine mapping of causal autoimmune disease variants.

Nature

Farh KK, Marson A, Zhu J, Kleinewietfeld M, Housley WJ, Beik S, Shoresh N, Whitton H, Ryan RJ, Shishkin AA, Hatan M, Carrasco-Alfonso MJ, Mayer D, Luckey CJ, Patsopoulos NA, De Jager PL, Kuchroo VK, Epstein CB, Daly MJ, Hafler DA, Bernstein BE

Small-molecule ROR?t antagonists inhibit T helper 17 cell transcriptional network by divergent mechanisms.

Immunity

Xiao S, Yosef N, Yang J, Wang Y, Zhou L, Zhu C, Wu C, Baloglu E, Schmidt D, Ramesh R, Lobera M, Sundrud MS, Tsai PY, Xiang Z, Wang J, Xu Y, Lin X, Kretschmer K, Rahl PB, Young RA, Zhong Z, Hafler DA, Regev A, Ghosh S, Marson A, Kuchroo VK

Connecting microRNA genes to the core transcriptional regulatory circuitry of embryonic stem cells.

Cell

Marson A, Levine SS, Cole MF, Frampton GM, Brambrink T, Johnstone S, Guenther MG, Johnston WK, Wernig M, Newman J, Calabrese JM, Dennis LM, Volkert TL, Gupta S, Love J, Hannett N, Sharp PA, Bartel DP, Jaenisch R, Young RA

Foxp3 occupancy and regulation of key target genes during T-cell stimulation.

Nature

Marson A, Kretschmer K, Frampton GM, Jacobsen ES, Polansky JK, MacIsaac KD, Levine SS, Fraenkel E, von Boehmer H, Young RA