Research

Research

The Povedano Selfa laboratory interest lies in studying cancers driven by elusive and yet to be discoverd druggable targets. One example and focus of the Povedano Selfa lab is small cell lung cancer (SCLC), an aggressive form of lung cancer with limited therapeutic options. SCLC is driven by loss of function mutations in the tumor suppressor, TP53 and RB1. Unlike other forms of lung cancer in which actionable mutations such as EGFR or KRAS have been identified, there are no available strategies to target tumor suppressor loss in SCLC. As a consequence, outcomes have not improved for SCLC over the past 40 years. Our laboratory uses high-throughput phenotypic small molecule screening and genome-wide CRISPR screening to identify new chemically-tractable vulnerabilities for SCLC.

Using murine cancer cell lines derived from a genetically engineered mouse model  of SCLC as well as a broad panel of patient-derived cancer cell lines, we have identified small molecules with selective toxicity against SCLC.

research details of the Povedano Selfa Lab

Chan Lab

Description

Our lab is creating better experimental models that reveal how cancer cells metastasize and evade our immune system. We use these models to develop new drugs that engage our immune system to kill cancer cells.

Bailey Lab

Description

The Bailey lab focuses on developing gene therapies for neurological disorders. We work on monogenetic pediatric disorders, including SLC13A5 epileptic encephalopathy, multiple sulfatase deficiency, Charcot Marie Tooth disease type 4J, giant axonal neuropathy and ECHS1 deficiency.

Schoggins Lab

Description

The Schoggins Lab studies innate immunity at the virus-host interface. We are interested in mechanisms of cellular antiviral defense and the role these responses play during viral disease.

Martinez Lab

Description

We are interested in understanding the deregulation of epigenetic and transcriptional pathways in human disease and in finding small molecules with therapeutic potential to normalize these gene expression patterns. 

Nitschke Lab

Description

Our lab works with murine disease models and employs BiochemistryMolecular and Cell Biology to investigate brain glycogen metabolism and related neurodegenerative diseases.

Tsai Lab

Description

Tsai Lab studies the cellular and molecular mechanisms of synapse and neural circuit development.

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