Christopher L Brett

Biography

Dr. Christopher L Brett is affiliated to Department of Biology, Concordia University. Dr. Christopher L Brett is currently providing services as Associate Professor. Dr. Christopher L Brett has authored and co-authored multiple peer-reviewed scientific papers and presented works at many national and International conferences. Dr. Christopher L Brett contributions have acclaimed recognition from honourable subject experts around the world. Dr. Christopher L Brett is actively associated with different societies and academies. Dr. Christopher L Brett academic career is decorated with several reputed awards and funding. Dr. Christopher L Brett research interests include Whether they know it or not, everyone recycles. This is because every one of the 3 billion or so cells that make up you recycles biomaterials. To do so, they use specialized tiny organs or organelles called lysosomes. Lysosomes are an essential source of nutrients for cells and they breakdown toxic biomaterials that accumulate in cells as they age. As such, progressive loss of lysosome function is thought to contribute to aging and ultimately death. Lysosomes require 3 processes to function: (1) membrane fusion to receive incoming biomaterials, (2) biomaterial catabolism by lumenal hydrolyses, and (3) nutrient transport by transporter proteins that return products of catabolism (amino acids, sugars, lipids) to the cell. My lab studies the molecular underpinnings of lysosome membrane fusion and nutrient transport. We discovered that during membrane fusion, a portion of the lysosome membrane is internalized and catabolized. Lysosomal transporter proteins are selectively sorted into this area and degraded offering lysosomes a mechanism to to clear damaged transporter proteins or remodel themselves when necessary. This process, which we named the "ILF pathway" seems to be critical for lysosome function when cells are starved or as they age. As my lab continues to study the contributions of ILF pathway to lysosome biology, I aim to translate state-of-the-art knowledge into new strategies to promote longevity and treat age-related diseases..

Research Interest

Whether they know it or not, everyone recycles. This is because every one of the 3 billion or so cells that make up you recycles biomaterials. To do so, they use specialized tiny organs or organelles called lysosomes. Lysosomes are an essential source of nutrients for cells and they breakdown toxic biomaterials that accumulate in cells as they age. As such, progressive loss of lysosome function is thought to contribute to aging and ultimately death. Lysosomes require 3 processes to function: (1) membrane fusion to receive incoming biomaterials, (2) biomaterial catabolism by lumenal hydrolyses, and (3) nutrient transport by transporter proteins that return products of catabolism (amino acids, sugars, lipids) to the cell. My lab studies the molecular underpinnings of lysosome membrane fusion and nutrient transport. We discovered that during membrane fusion, a portion of the lysosome membrane is internalized and catabolized. Lysosomal transporter proteins are selectively sorted into this area and degraded offering lysosomes a mechanism to to clear damaged transporter proteins or remodel themselves when necessary. This process, which we named the "ILF pathway" seems to be critical for lysosome function when cells are starved or as they age. As my lab continues to study the contributions of ILF pathway to lysosome biology, I aim to translate state-of-the-art knowledge into new strategies to promote longevity and treat age-related diseases.