Alex K. Shalek, Ph.D.
Assistant Professor, Chemistry, MIT
Core Member, IMES, MIT
Associate Member, Ragon Institute of MGH, MIT, and Harvard
Assistant in Immunology, MGH
(617) 324-5670 (Office Phone)
Alex K. Shalek received his bachelor’s degree summa cum laude from Columbia University and his Ph.D. from Harvard University in chemical physics under the guidance of Hongkun Park. To date, his interdisciplinary research has focused on developing and utilizing nanoscale manipulation and measurement technologies to understand how small components (molecules, cells) drive systems of vast complexity (cellular responses, population behaviors). As a graduate student, Alex developed arrays of nanowires as cellular-scale syringes and electrochemical probes (Shalek et al, PNAS, 2010; Robinson et al, Nature Nanotech, 2012) and used them to study how biochemical perturbations alter cellular responses en masse (Chevrier et al, Cell, 2011; Shalek et al, Nano Letters, 2012; Yosef et al, Nature, 2013). While these studies yielded important insights, they also highlighted how population-level measurements can mask underlying differences between individual cells in these systems. As an alternative approach, as a postdoctoral fellow, he developed a strategy that uses single-cell RNA-Seq to identify distinct cell states and circuits from the natural variation that exists between seemingly identical cells (Shalek et al, Nature, 2013). Since then, he has dramatically increased the throughput and control of his methods with microfluidic cell preparation and isolation schemes. This has enabled him to uncover how responses to pathogens are structured within dendritic cell (DC) populations, and how cell-to-cell variability arises from intra- and inter-cellular regulatory circuits in healthy and diseased states (Shalek et al, Nature, 2014), as well as to explore the causes and consequences of cellular heterogeneity in additional systems of interest (Patel et al, Science, 2014).
Research in the Shalek group is directed towards the development and application of new technologies that will facilitate the understanding of how cells collectively perform systems-level functions in healthy and diseased states. With respect to technology development, the group is leveraging recent advances in nanotechnology and chemical biology to establish a host of core, cross-disciplinary platforms that will collectively enable them to extensively profile and precisely control cells and their interactions within the context of complex systems. With respect to biological applications, the group is focusing on how cellular heterogeneity and cell-to-cell communication drive ensemble-level decision-making in the immune system, with an emphasis on “two-body” interaction (e.g., host cell-virus interactions, innate immune control of adaptive immunity, tumor infiltration by immune cells). The goal is to not only provide broadly applicable experimental tools but also help transform the way in which we think about single cells, cell-cell interactions, diseased cellular states and therapeutics so as to create a new paradigm for understanding and designing systems-level cellular behaviors in multicellular organisms.
- Shalek, A.K.*, Satija, R.*, Shuga, J.*, Trombetta, J.J., Lu, D., Gennert, D., Chen, P., Gertner, R.S., Gaublomme, J.T., Yosef, N., Schwartz, S., Fowler, B., Weaver, S., Wang, J., Wang, X., Ding, R., Raychowdhury, R., Friedman, N., Hacohen, N., Park, H., May, A.P., and Regev, A., “Large-Scale Single-Cell RNA-Seq Reveals Strategies for Regulating Cell-to-Cell Dynamic Variability through Paracrine Signaling,” Nature, 510, 363(2014).
- Satija, R., and Shalek, A.K., “Heterogeneity in Immune Responses – From Populations to Single Cells,” Trends in Immunology, 5, 219 (2014).
- Wang, L., Shalek, A.K., Lawrence, M., Ding, R., Gaublomme, J.T., Pochet, N., Stojanov, P., Sougnez, C., Shukla, S., Stevenson, K.E., Zhang, W., Wong, J., Sievers, Q.L., Macdonald, B., Vartanov, A.R., Goldstein, N.R., Sutton, A., Neuberg, D., Gabriel, S., He, X., Langer, E., Hacohen, N., Regev, A., Getz, G., Brown, J.R., Park, H., and Wu, C.J., “Somatic Mutation as a Mechanism of Wnt/β-Catenin Pathway Activation in CLL,” Blood, 124, 1089(2014).
- Patel, A.P.*, Tirosh, I*, Trombetta, J.J., Shalek, A.K., Gillespie, S.M., Wakimoto, H., Cahill, D.P., Nahed, B.V., Curry, W.T., Martuza, R.L., Louis, D.N., Rosenblatt-Rosen, O., Suvà, M.L., Regev, A., and Bernstein, B.E., “Single Cell RNA-seq highlights intratumoral heterogeneity in primary glioblastoma,” Science, 344, 1396 (2014).
- Trombetta, J.J. *, Gennert, D. *, Lu, D. *, Satija, R., Shalek, A.K., and Regev, A., “Preparation of Single Cell RNA-Seq Libraries for Next Generation Sequencing,” Current Protocols in Molecular Biology, 107, 4.22.1(2014).
- Lohr, J.G., Adalsteinsson, V.A., Cibulskis K, Choudhury, A.D., Rosenberg, M., Cruz-Gordillo, P. Francis, J., Zhang, C.Z., Shalek, A.K., Satija, R., Trombetta, J.J., Lu, D., Tallapragada, N., Tahirova, N., Kim, S., Blumenstiel, B, Sougnez, C., Lowe, A., Wong, B., Auclair, D., Van Allen, E.M., Nakabayashi, M., Lis, R.T., Lee, G.S.M., Li, T., Chabot, M.S., Ly, A., Taplin, M.E., Clancy, T.E., Loda, M., Regev, A., Meyerson, M., Hahn, W.C., Kantoff, P.W., Golub, T.R., Getz, G., Boehm, J.S., Love, J.C., “Whole exome sequencing of CTCs as a window into metastatic prostate cancer,” Nature Biotechnology, 32, 479(2014).
- Suvà, M. *, Rheinbay, E.*, Gillespie, S.M., Patel, A.P., Chi, A.S., Riggi, N., Wakimoto, H., Rabkin, S.D., Matuza, R.L., Rivera, M.N., Rossetti, N., Beik, S., Kasif, S., Wortman, I., Shalek, A.K., Rozenblatt-Rosen, O., Regev, A., Louis, D.N., and Bernstein, B.E., “Reconstructing and Reprogramming the Developmental Hierarchy of Glioblastoma,” Cell, 157, 580(2014).
- Shalek, A.K.*, Satija, R.*, Adiconis, X., Gertner, R.S., Gaublomme, J.T., Raychowdhury, R., Schwartz, S., Yosef, N., Malboeuf, C., Lu, D., Trombetta, J.J., Gennert, D., Gnirke, A., Goren, A., Hacohen, N., Levin, J.Z., Park, H., and Regev, A., “Single-Cell Transcriptomics Reveals Bimodality in Expression and Splicing in Immune Cells,” Nature, 498, 236 (2013).
- Yosef, N. *, Shalek, A.K.*, Gaublomme, J.T. *, Jin, H., Lee, Y., Awasthi, A., Wu, C., Karwacz, K., Xiao, S., Jorgolli, M., Gennert, D., Satija, R., Shakya, A., Lu, D.Y., Trombetta, J.J., Pillai, M., Ratcliffe, P.J., Coleman, M.L., Bix, M., Tantin, D., Hongkun Park, H., Kuchroo, V.K., and Regev, A., “Dynamic Regulatory Network Controlling Th17 Cell Differentiation,” Nature, 496, 461 (2013).
- Gifford, C.A., Ziller, M.J., Gu, H., Trapnell, C., Donaghey, J., Tsankov, A., Shalek, A.K., Kelley, D.R., Shishkin, A.A., Issner, R., Zhang, X., Coyne, M., Fostel, J.L., Holmes, L., Meldrim, J., Guttman, M., Epstein, C., Park, H., Kohlbacher, O., Rinn, J., Gnirke, A., Lander, E.S., Bernstein, B.E., and Meissner, A., “Transcriptonal and Epigenetic Dynamics during Specification of Human Embryonic Stem Cells,” Cell, 153, 1149 (2013)
- Na, Y.R., Kim, S.Y., Gaublomme, J.T., Shalek, A.K., Jorgollia, M., Park, H. and Yang, E.G., “Probing Enzymatic Activity inside Living Cells Using a Nanowire−Cell “Sandwich” Assay,” Nano Lett., 13, 153 (2013).
- Gat-Viks, I., Chevrier, N., Wilentzik, R., Eisenhaure, T. Raychowdhury, R., Steuerman, Y., Shalek, A.K., Hachohen, N., Amit,, I., and Regev, A., “Deciphering Molecular Circuits from Genetic Variation Underlying Transcriptional Responsiveness to Stimuli,” Nature Biotech., 31, 342 (2013).
- Shalek, A.K.*, Gaublomme, J.T.*, Wang, L., Yosef, N., Chevrier, N., Andersen, M.S., Robinson, J.T., Pochet, N., Neuberg, D., Gertner, R.S., Amit, I., Brown, J.R., Hacohen, N., Regev, A., Wu, C.J., and Park, H., “Nanowire-Mediated Delivery Enables Functional Interrogation of Primary Immune Cells: Application to the Analysis of Chronic Lymphocytic Leukemia,” Nano Lett. 12, 6498 (2012).
- Robinson, J.T., Jorgolli, M., Shalek, A.K., Yoon, M.H., Gertner, R.S., and Park, H., “Vertical Nanowire Electrode Arrays as a Scalable Platform for Intracellular Interfacing to Neuronal Circuits,” Nature Nanotech. 7, 180 (2012).
- Chevrier, N., Mertins, P., Artyomov, M.N., Shalek, A.K., Iannacone, M., Ciaccio, M.F., Gat-Viks, I., Tonti, E., DeGrace, M.M., Clauser, K.R., Garber, M., Eisenhaure, T.M., Yosef, N., Robinson, J.T., Sutton, A., Andersen, M.S., Root, D.E., von Andrian, U., Jones, R.B., Park, H., Carr, S.A., Regev, A., Amit, I., and Hacohen, N. “Systematic Discovery of TLR Signaling Components Delineates Viral-Sensing Circuits,” Cell 147, 853 (2011)
- Shalek, A.K., Robinson, J.T., Karp, E.S., Lee, J.S., Ahn, D.R., Yoon, M.H., Sutton, A., Jorgoli, M., Gertner, R.S., Gujral, T.S., MacBeath, G., Yang, E.G., and Park, H., “Vertical Silicon Nanowires as a Universal Platform for Delivering Biomolecules into Living Cells,” Proc. Natl. Acad. Sci. U. S. A. 107, 1870 (2010).
Last Updated: September 26, 2014