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Howard Sirotkin

Faculty Profile SirotkinAssociate Professor
PhD, Albert Einstein College of Medicine

Howard.Sirotkin@stonybrook.edu

Life Sciences Building
Office: Room 512
Lab: Room 505
Phone: (631) 632-4818
Fax: (631) 632-6661

 


Training

Howard Sirotkin attended the University of Florida from 1987 to 1991 and was awarded a B.S. degree in Microbiology in 1991. He attended Albert Einstein College of Medicine from 1991 to 1996 and received an M.S. in Molecular Genetics in 1993 and a Ph.D. in Molecular Genetics in 1996 and was a postdoctoral fellow from 1996 to 1997. He continued his postdoctoral studies at New York University’s School of Medicine from 1997 to 1999 and from 1999 to 2001 was a postdoctoral fellow in Developmental Biology at Stanford University School of Medicine. He became an assistant professor of Neurobiology & Behavior at the State University of New York at Stony Brook in 2002, and in 2008 was promoted to the rank of associate professor with tenure.

Research

During embryonic development, a single cell divides and differentiates to form the multitude of cell types found in a mature organism. How each cell type executes this complex program to generate the proper varieties of cells in the correct numbers and at the appropriate locations is poorly understood. We seek to unravel the mysteries of neural development and investigate disease states where these processes have failed.

Our research falls into three broad areas: (1) Elucidating the molecular interactions that govern proliferation and differentiation of neural stem cells and progenitors. (2)Developing animal models for human neurological disorders including Autism, Parkinson’s and hypoxic injury. (3)Pioneering technologies to engineer chromosomes and modulate gene expression. My laboratory utilizes the zebrafish as a model organism. Several attributes make the zebrafish an ideal system for this analysis: embryos are transparent which allows for in vivo observations of cell movement and gene expression, development occurs external to the mother which facilitates cellular manipulations (transplants and gain/loss of function assays) and most importantly, it is a powerful genetic system.  Because all vertebrates share fundamental similarities in the organization of their body plans, understanding the genetic networks that control zebrafish neural development will provide important insights into development of other species including humans.

  • Publications

    Zoodsma, J.D, Chan, K., Bhandiwad A. , Golann D, Liu G, Syed S, Napoli A, Burgess H.A., Sirotkin H.I* and  Wollmuth, L.P*.  (2020). “A Model to Study NMDA Receptors in Early Nervous System Development.” J. Neuroscience 40(18):3631-3645.  doi: 10.1523/J NEUROSCI.3025-19.2020. *co-senior authors

    Wint, J. and   Sirotkin H.I (2020) “Lrrk2 Modulation of Wnt Signaling During Zebrafish Development.” J. Neuroscience Research 98(10):1831-1842 doi: 10.1002/jnr.24687.

    Huang, I., Sirotkin, H.I., and McElroy A. (2020). “Comparative transcriptomics implicate mitochondrial and neurodevelopmental impairments in larval zebrafish (Danio rerio) exposed to two selective serotonin reuptake inhibitors (SSRIs).” Ecotoxicology and Environmental Safety.  203:110934. doi: 10.1016/j.ecoenv.2020.110934.

    Huang, I., Sirotkin, H.I., and McElroy A. (2019). Varying the exposure period and duration of neuroactive pharmaceuticals and their metabolites modulates effects on the visual motor response in zebrafish (Danio rerio) larvae. Neurotoxicol and Teratol 72:39-48. DOI 10.1016/j.ntt.2019.01.006

    Monestime, C., Taibi, A, Gates, K, Jiang, K. and Sirotkin H.I (2019). CoRest1 regulates neurogenesis in a stage-dependent manner. Dev Dynamics. Dev Dyn. 2019 248(10):918-930 PMID:31301200  

     Moravec, C.E., Yousef, H., Kinney, B.A., Salerno-Eichenholz, R., Monestime, C., Martin, B. L., Sirotkin H.I., (2017). Zebrafish sin3b mutants are viable but have size, skeletal and locomotor defects. Dev Dyn 246(11):946-955. PMID: 28850761

    Moravec, C.E., Li E. Samuel, J., Weng, W., Wood, I.C.    Sirotkin H.I.,. (2016) Maternal Rest/Nrsf Regulates Zebrafish Behavior Through snap25a/b.    .    J Neurosci    36, 9407-19 (2016) PMID: 27605615

    Moravec, C.E., Li E., Maaswinkle, H., Kritzer, M.F., Weng, W.,    Sirotkin H.I., (2015). Rest Mutant zebrafish swim erratically and display atypical spatial preferences. Behav Brain Res. 284:238-48. doi: 10.1016

    Kim, L.,  He, L., Maaswinkel, H., Zhu, L.,    Sirotkin, H. and Weng, W. (2014) Anxiety, hyperactivity and stereotypy in a zebrafish model of fragile X syndrome and autism spectrum disorder. Prog Neuropsychopharmacol Biol Psychiatry. 2014 Mar 27. doi: 10.1016/j.pnpbp.2014.03.007.

    Taibi, A.V., Mandavawala, K. P., Noel, J., Okoye, E.V., Milano, C.R., Martin, B. L., and    Sirotkin  , H.I  (2013) Zebrafish   churchill  regulates developmental gene expression and cell migration.    Dev Dyn. 2013 Feb 27. doi: 10.1002/dvdy.23958

    Wang, H.J., Zare H., Mousavi, K., Wang C., Moravec, C.E.,    Sirotkin  , H.I., Ge, K. and Sartorelli V. (2013). The Histone Chaperone Spt6 Coordinates Histone H3K27 Demethylation to Regulate Gene Expression and Myogenesis     EMBO J.   2013 32(8):1075-86. doi: 10.1038/emboj.2013.54

    Xie X, Mathias JR, Smith MA, Walker SL, Teng Y, Distel M, Köster RW,    Sirotkin, H.I, Saxena MT, Mumm JS. (2012).Silencer-delimited transgenesis:NRSE/RE1 sequences promote neural-specific transgene expression in a NRSF/REST dependant manner.    BMC Biol.  10(1):93. PMID: 23198762

    Kok, F.O., Taibi, A., Wanner, S.J., Xie, X., Moravec, C.E., Love, C.E., Prince, V.E., Mumm, J. S., Sirotkin H.I., (2012). Zebrafish rest regulates developmental gene expression but not neurogenesis. Development 139(20): 3838-48.

    Gates KP, Mentzer L, Karlstrom RO, Sirotkin HI. (2010). The transcriptional repressor REST/NRSF modulates hedgehog signaling.    Dev Biol.  2010 Feb 1. PMID: 20122919

    Kok, F.O., Shepherd I.T., Sirotkin H.I., (2009). Churchill and Sip1a repress fibroblast growth factor signaling during zebrafish somitogenesis.    Dev Dyn. Dec 23 epub. PMID: 20034103

    Londin, E.R., Mentzer, L., Gates, K.P., and Sirotkin, H.I., (2007). Expression and regulation of the zinc finger transcription factor Churchill during zebrafish development.   Gene Expr Patterns  7(6):645-50.

    Kok, F., Oster, E., Mentzer, L., Hsieh, J.C., Henry, C and Sirotkin, H.I., (2007). The role of the Spt6 chromatin remodeling factor in zebrafish embryogenesis.   Dev Biol.  307(2):214-26.

    Londin, E.R., Mentzer, L. and Sirotkin, H.I., (2007) Churchill regulates cell movement and mesoderm specification by repressing Nodal signaling.    BMC Dev Bio.7:120.

    Bell, M. A., Ellis, K. E., and Sirotkin, H. I. (2007) Variation of pelvic limb reduction and Pitx1 expression among threespine stickleback populations. Tinkering: the microevolution of development. Wiley, Chichester. Novartis Symposium 284,   225-244.

    Londin, E.R., Niemiec, J. and Sirotkin, H.I., (2005). Chordin, FGF signaling, and mesodermal  factors cooperate in zebrafish neural induction.   Dev Biol. 279(1):1-19.

    Gleason, M.R., Armisen, R., Verdecia, M.A., Sirotkin, H., Brehm, P., Mandel, G. (2004). A mutation in serca underlies motility dysfunction in accordion zebrafish.    Dev Biol. 15;276(2):441-51.

    Levkowitz, G, Zeller, J , Sirotkin, H.I, Schilbach, S, Hashimoto, H, Hibi, H, Talbot, W.S. and Rosenthal,  A. (2003). Zinc finger protein too few controls the development of monoaminergic neurons.   Nat Neurosci. 6:28-33.

    Sirotkin, H.I., Gates, M.A., Kelly, P. A., Schier, A.F., and Talbot, W.S. (2000). fast1 is required for the development of dorsal axial structures in zebrafish. Current Biology 10, 1051-1054.

    Sirotkin, H. I., Dougan, S.T., Schier, A.F.  and Talbot, W.S. (2000). bozozok and squint act in parallel to specify dorsal mesoderm and anterior neuroectoderm.   Development : 127:2583-2592.

    Fekany, K., Yamanaka, Y., Leung, T., Sirotkin, H.I., Topczewski, J., Gates, M.A., Hibi, M., Renucci, A., Stemple, D., Radbill, A., Schier, A.F., Driever, W., Hirano, T., Talbot, W.S. and Solnica-Krezel, L.  (1999). The zebrafish bozozok locus encodes the homeodomain protein Dharma and is sufficient in the extraembryonic yolk syncytial layer for gastrula organizer formation.   Development 126:1427-38.

    Feldman, B., Gates, M.A., Egan, E.S., Dougan, S.T., Rennebeck, G., Sirotkin, H.I., Schier, A.F., and Talbot, W.S. (1998). Zebrafish organizer development and germ-layer formation require nodal-related signals.   Nature 395: 181-185

    Pubmed Linked Publications

  • Laboratory Personnel

    PhD Students: 

    Josiah Zoodsma (Neuroscience)
    Amalia Napoli (Neuroscience)

    MS Students:

    Carly Gomes (Neuroscience)

    Stephanie Flanagan (Technician)

    Undergraduates:
    Christieann Aprea

    Bismi Biju

    Tiarra Green

    Olgerta Mucollari
    Aaliya Sayed