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草榴社区 Professor鈥檚 Research on Neurodegenerative Diseases Published in Biophysical Journal

Fri, 06/03/2022 - 08:59am | By: Ivonne Kawas

Pictured from left to Right: Dr. Vijay Rangachari and graduate student Shailendra Dhakal.

Pictured from left to Right: Dr. Vijay Rangachari and graduate student Shailendra Dhakal.

Many neurodegenerative diseases such as Alzheimer鈥檚, Parkinson鈥檚 disease, amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD) have a commonality that they involve 鈥渃lumping鈥 of proteins as the cause of toxicity in the brain. One such protein called TDP-43, forms clumps in the brain of patients with ALS and FTLD.

ALS and FTLD are neurodegenerative diseases with onset of symptoms usually occurring around 65 years of age. As the name suggests, FTLD affects two distinct frontal and anterior temporal region of the brain resulting in behavior or language impairment. For example, changes in personality, difficulties in remembering specific words and objects thereby impairing the ability to speak and communicate.

On the other hand, ALS, also known as Lou Gehrig鈥檚 disease, involves loss of motor neurons that controls the movement. This results in muscle weakness and difficulty in movement, ability to speak, swallow, and sometimes even breathe.

A University of 草榴社区 Mississippi (草榴社区) professor鈥檚 research paper recently published in the prestigious Biophysical Journal titled, 鈥,鈥 shows that the nature of TDP-43 clumps can be modulated by another protein called granulin, which are typically produced during inflammation.

Corresponding author, Dr. Vijay Rangachari, Director of the Center for Molecular and Cellular Biosciences and Professor of Biophysical Chemistry, and his research group collaborated with Professor Dr. Sarah Morgan in the School of Polymer science and Engineering on this groundbreaking research.

Dr. Rangachari noted that the results from this research paper uncover the potential for using granulin as biomarkers for the diagnosis of inflammation-induced onset of FTLD. 鈥淕ranulins are the smaller peptide known to stimulate the production of pro-inflammatory cytokines which is a molecule secreted by different cells that induces inflammation,鈥 said Dr. Rangachari. 鈥淧roviding the role of inflammation in early stages of neurodegenerative diseases and estimating the level of granulins in the cerebrospinal fluid/blood could serve as potential biomarkers for early diagnosis and therapy of neurodegenerative diseases,鈥 he added.

By demonstrating the potential link between inflammation and the onset of these neurodegenerative disorders, Dr. Rangachari鈥檚 research can positively impact diagnostic and therapeutic development and in mitigating disease progression.

鈥淭he role of inflammation in neurodegenerative diseases has been shown by many studies,鈥 said Dr. Rangachari. 鈥淚t has been believed that inflammation plays role in early stages of neurodegeneration than later. Thus, many neuroprotective therapeutic agents can be developed by targeting the early inflammatory processes that may prevent or delay the disease progression.鈥

The research shows the molecular level of interactions between the granulin and TDP-43, and what intrigued Dr. Rangachari most about it is: 鈥渢he fact that granulins can modulate the phase-transitions of TDP-43 in such a way that seems intricately dictated by the genetic code of granulin suggesting an evolutionary basis for their interactions.鈥

Biophysical Journal, a peer-reviewed scientific journal published by Cell Press, publishes research and review articles relating to important biological, chemical, and physical mechanisms.

To learn more about Dr. Rangachari and his research visit his 草榴社区 faculty profile. To read this paper, visit the .