Breakthrough in Autophagy Research: New Insights for Disease Treatment

Researchers from JNCASR have made a significant discovery regarding autophagy, the process that helps cells eliminate damaged components. This finding could lead to new therapies for diseases like Alzheimer's, Parkinson's, and cancer. The study highlights the role of the exocyst complex in autophagy, revealing how it aids in the formation of cellular structures that manage waste. Understanding this mechanism is crucial for developing effective treatments, especially since autophagy is linked to various health conditions. The research, published in a prestigious journal, opens new avenues for restoring cellular balance and addressing critical health challenges.

By Narendra Chaudhary Dec 19, 2025, 20:34 IST

Significant Discovery in Autophagy Mechanism

New Delhi, Dec 19: Researchers at the Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR) have identified an unexpected component involved in autophagy, the cellular process responsible for degrading and recycling damaged cellular components. This discovery could lead to advancements in therapies for conditions like Alzheimer’s, Parkinson's, and cancer.

Autophagy is essential for cellular health, allowing cells to eliminate damaged and unnecessary materials. When this process is impaired, particularly in long-lived neurons, it can lead to significant health issues. Disruptions in the autophagy pathway are associated with diseases such as Alzheimer’s and Huntington’s.

In the context of cancer, autophagy has a complex role. Initially, it acts as a barrier against cancer development, but it can later facilitate tumor growth. It serves as a tumor suppressor by preserving genome integrity and maintaining cellular balance through the removal of cellular debris, including damaged proteins and mitochondria.

However, some cancer cells exploit autophagy to enhance their survival and proliferation. Therefore, understanding the regulation of this process is vital for creating effective treatments.

The JNCASR team discovered that a protein group known as the exocyst complex, which typically aids in transporting essential molecules to the cell surface, is also crucial for autophagy.

This complex consists of eight proteins, with seven of them necessary for the formation of autophagosomes, the cellular structures that encapsulate waste. If this complex is absent, the cell's ability to produce these structures is compromised, leading to the creation of defective factories.

Led by Prof. Ravi Manjithaya, the researchers utilized simple yeast cells to investigate the formation of autophagosomes, shedding light on how this critical process functions in more complex organisms.

They clarified how the exocyst protein complex, previously known for its role in secretion, also plays a significant part in the autophagy pathway, which is vital for cellular health.

Given that autophagy defects are linked to various neurodegenerative diseases and cancers, the findings published in the journal Proceedings of the National Academy of Sciences could pave the way for new strategies to modulate this pathway, aiming to restore cellular balance and develop potential therapies.