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PROJECT TITLE
"Programming next-generation NK cell therapies using targeted protein degradation"

Genetically engineered immune cell therapies have emerged as breakthroughs in the treatment of certain blood cancers. However, these advances have been limited to the minority of cancers that express a cell surface protein on all tumor cells; this protein is absent from essential normal tissues and can be recognized and targeted by therapeutic immune cells. Dr. Jan seeks to develop synthetic biology tools to engineer immune cells to recognize the heterogeneous tumor proteins present on many advanced cancers and then activate the body's tumor clearance mechanisms. His goal is to develop cell therapy candidates for direct translation to the care of people with advanced prostate cancer.

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NAMED AWARD
PROJECT TITLE
"Molecular and structural basis of gene expression regulation by the nucleosome remodeling and deacetylase (NuRD) complex in human cancer"

Human cells compact their vast genomes into the small confines of the nucleus by wrapping their DNA into a highly complex structure called chromatin. Packaging DNA into chromatin, however, affects all nucleic acid-transacting machines (e.g., transcription factors) that need to access the genomic information stored in the DNA. NuRD is a large multi-subunit protein complex that plays a major role in making chromatin either accessible or inaccessible. Dysregulation of NuRD and aberrant targeting of the complex can result in the emergence of several types of cancers, including breast, liver, lung, blood, and prostate cancers. Dr. Osorio Valeriano’s [Philip O'Bryan Montgomery, Jr., MD, Fellow] work will reveal mechanistic aspects of NuRD-mediated chromatin regulation and pave the way for the development of novel therapeutic approaches that target cancers more effectively. Dr. Osorio Valeriano received his PhD from Philipps University and his MSc and BSc from the National Autonomous University of Mexico.

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SPONSOR(S)/MENTOR(S)
Lucas Farnung, PhD, and Danesh Moazed, PhD
PROJECT TITLE
"Genetic conflicts shape protamine evolution"

Dr. Chang is studying protamines—short, positively-charged proteins that condense DNA into chromatin and regulate gene expression in sperm nuclei. While eukaryotic cells use histones to package genomes in a way that allows access for transcription and replication, sperm cells must package their genomes more tightly. For this, many animals deploy protamines instead of histones. Despite sharing certain functions with highly conserved histones, protamines have independently arisen in evolution multiple times and are continuing to rapidly evolution. Using Drosophila fruit fly species as a model, Dr. Chang studies how sperm chromatin regulates gene expression and reproductive fitness. Additionally, although protamine expression is typically limited to testes, their misexpression has been observed in many cancers, indicating an opportunity for therapeutic intervention.

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AWARD PROGRAM
RESEARCH AREA
SPONSOR(S)/MENTOR(S)
Harmit S. Malik, PhD
NAMED AWARD