Immunology Collaborators at Scripps Florida

The Pipkin lab

www.pipkin-lab.com

The Pipkin lab works to elucidate how chromatin structure and transcription controls the gene expression programs that establish and maintain the differentiated states of CD8 T cells. The lab specifically studies how naïve CD8 T cells differentiate into effector and memory cytotoxic T lymphocytes (CTL). CTL are killer lymphocytes that hold outstanding promise for controlling viral infections and cancer therapeutically, as they can be employed in adoptive immunotherapy and are the target of successful vaccination.

The Sundrud lab

www.sundrudlab.com

The Sundrud lab is focused on understanding the molecular underpinnings of how inflammatory T cells develop and promote tissue inflammation.  Recently, the lab has been focusing on chronic inflammatory diseases affecting the gut.  The ultimate goal of their research is to enable the design of better, more specific therapies.

Nuclear Receptor Collaborators at Scripps Florida

The Griffin Lab

www.griffin.florida.scripps.edu

The Griffin lab is focused on protein structure and function, specifically mutational and ligand-mediated alterations in protein structural plasticity and quantitative structural SAR to facilitate lead optimization of molecules targeting therapeutic proteins.  The Griffin lab has a major focus on understanding nuclear receptor signaling and has made significant contribution to understand the mechanism of ligand activation of nuclear receptors, including PPARs, RORs, REV-ERBs, LRH1, VDR, ER, GR, and PR. Using structural, chemical, and biological approaches, the Griffin lab aims to develop functionally selective modulators of various nuclear receptors to target diseases such as cancer, autoimmune, obesity, and diabetes.

The Kojetin Lab

www.kojetinlab.org

The Kojetin lab is focused on understanding the mechanism of action of small molecule ligands – how they change the structure and conformational dynamics of the nuclear receptors they target and how this contributes to biological function.  The Kojetin lab uses biomolecular NMR spectroscopy as well as other structural, biophysical, and functional techniques to understand the structural and dynamic mechanism of action of validated nuclear receptor drugs.   Their major goal is to understand how ligand-regulated conformational dynamics contributes to the overall function of the nuclear receptors and the pharmacological phenotype of the ligand – and how these changes may be exploited for purposes of pharmaceutical drug design.

The Kamenecka Lab

www.scripps.edu/faculty/kamenecka/

The Kamenecka lab is interested in the design, synthesis, and evaluation of novel compounds of biological and therapeutic interest. Currently, the Kamenecka lab is involved in the design and synthesis of novel small molecule modulators of nuclear hormone receptors, GPCRs, ion channels, and kinases for the therapeutic treatment of diabetes, obesity, sleep, addiction,  autoimmune, and chronic inflammatory diseases. They work closely with many departments to optimize lead compounds for potency, ADME, safety pharmacology, and toxicology in order to generate compounds suitable for preclinical development.