UAMS Awarded $1.6 million to Continue Research into Mechanisms Governing Intracellular Membrane Traffic in Human Cells

By Linda Satter

Intracellular traffic plays a pivotal role in the transportation of proteins and other macromolecules to diverse cellular locations, both within and outside the cell. It serves as a vital mechanism for maintaining cellular homeostasis and significantly influences the interactions between cells and their surrounding environment.

Vladimir Lupashin, Ph.D., a professor in the UAMS College of Medicine Department of Physiology and Cell Biology and the primary investigator, said comprehension of these mechanisms serves as a crucial foundation for developing effective treatments for a wide range of diseases, including cystic fibrosis, Parkinson’s disease and Alzheimer’s disease. Moreover, it plays a significant role in understanding and addressing other conditions such as Amyotrophic Lateral Sclerosis (ALS), and various forms of cancer and diabetes. By unraveling the intricate workings of intracellular membrane traffic, researchers aim to uncover novel therapeutic targets and strategies to combat these debilitating illnesses.

Lupashin’s laboratory has already made several scientific contributions that have resulted in the publishing of more than 80 original papers in high-profile scientific journals.

Lupashin and his team outside his lab.

Lupashin and his team outside his lab.

“We have pioneered the functional analysis of the Conserved Oligomeric Golgi (COG), an evolutionarily conserved protein complex critical for membrane trafficking and protein modifications in the Golgi apparatus,” he said, describing the Golgi as “the central hub for protein modification and sorting within cells. It plays a pivotal role in a process known as glycosylation, where highly complex sugars or glycans are added to proteins.”

Mutations affecting the COG complex can disrupt the normal functioning of the Golgi apparatus, leading to a group of rare diseases known as Congenital Disorders of Glycosylation (CDG). CDG encompasses a diverse spectrum of disorders, each characterized by specific symptoms and complications, including developmental delays, neurological impairments, organ dysfunction, and various other systemic abnormalities. By understanding the impact of COG complex mutations on Golgi function and glycosylation, researchers aim to uncover insights into the underlying mechanisms of CDG and develop potential therapeutic interventions to alleviate its associated symptoms and improve patients’ quality of life.

Additionally, Lupashin highlighted that the COG complex, a critical component of intracellular membrane traffic, can be exploited by various pathogens such as viruses, pathogenic bacteria, and toxins. However, the precise mechanisms by which these diverse groups of pathogens evolved to depend on COG function remain unclear.

“Understanding the molecular basis of COG-pathogen interactions will allow us to develop the strategies to protect cells and organisms from pathogen-borne diseases,” Lupashin said.

The R01 renewal totals $1,638,172 and enables the research to continue through March 31, 2027. The original five-year grant has been continuously renewed in four-year increments. In total, Lupashin has received $6,270,227 from the NIH for this research.

 

UAMS is the state’s only health sciences university, with colleges of Medicine, Nursing, Pharmacy, Health Professions and Public Health; a graduate school; a hospital; a main campus in Little Rock; a Northwest Arkansas regional campus in Fayetteville; a statewide network of regional campuses; and eight institutes: the Winthrop P. Rockefeller Cancer Institute, Jackson T. Stephens Spine & Neurosciences Institute, Harvey & Bernice Jones Eye Institute, Psychiatric Research Institute, Donald W. Reynolds Institute on Aging, Translational Research Institute, Institute for Digital Health & Innovation and the Institute for Community Health Innovation. UAMS includes UAMS Health, a statewide health system that encompasses all of UAMS’ clinical enterprise. UAMS is the only adult Level 1 trauma center in the state. UAMS has 3,485 students, 915 medical residents and fellows, and seven dental residents. It is the state’s largest public employer with more than 11,000 employees, including 1,200 physicians who provide care to patients at UAMS, its regional campuses, Arkansas Children’s, the VA Medical Center and Baptist Health. Visit www.uams.edu or uamshealth.com. Find us on Facebook, X (formerly Twitter), YouTube or Instagram.

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