Close Menu
  • Indian Festivals 2026
  • Movie & OTT Releases This Week
  • News
  • Entertainment
  • NRI Life
  • Research
  • Advertise with us
Facebook X (Twitter) Instagram YouTube
  • Download Indian Community App
  • Advertise Here
Facebook X (Twitter) Instagram
Indian CommunityIndian Community
Trending
  • ‘Vadala’ Movie Review: A Gripping Psychological Thriller With Powerhouse Performances
  • Oh! Sukumari Movie Review: Thiruveer, Aishwarya Rajesh Spark Pure Magic in This Rural Entertainer
  • MRP (Neekentha Naakentha) Movie Review: A Hilarious Corpse-Swap Comedy You Can’t Miss
  • Arulvaan Movie Review: Arulnithi’s Powerful Drama Is a Heartfelt Ode to Education
  • Anbe Diana Movie Review: A Heartwarming Cross-Cultural Romance That Wins You Over With Laughter
  • What Is a Kaftan? Everything You Need to Know Before Buying One
  • Mother Promise 2026 Movie Review: This Kannada Gangster Comedy Is Pure Absurd Fun
  • Love Oh Love 2026 Movie Review: A Breezy, Feel-Good Romantic Entertainer That Flips the Script on Modern Love
  • Indian Festivals 2026
  • News
    • National
    • International
    • Entertainment
    • Achievements
    • Scam Alerts
    • Business
    • Health & Medicine
    • Science & Technology
    • Sports
  • Entertainment
  • Latest Movie Releases
    • Latest OTT Releases
  • NRI Life
  • India & Culture
  • Health & Wellness
  • Research
Indian CommunityIndian Community
Home » News » HEALTH/MEDICINE
HEALTH/MEDICINE

Indian scientists explore potential cure for Alzheimer’s Disease using microRNAs

Indian Community Editorial TeamBy Indian Community Editorial TeamAugust 6, 20253 Mins ReadNo Comments Add us to Google Preferred Sources
Indian scientists explore potential cure for Alzheimer’s Disease using microRNAs
Share
Facebook Twitter LinkedIn Pinterest Email

New Delhi, Aug 6 (IANS) MicroRNAs (miRNAs) — the discovery of which received the Nobel Prize in Physiology or Medicine last year — may play a significant role in the treatment and cure of Alzheimer’s Disease (AD), said researchers from Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR).

Alzheimer’s Disease is a devastating condition that steals away mental faculties and debilitates day-to-day life of patients. Characterised by the accumulation of protein clumps in the brain, memory loss, and cognitive deficits, it is estimated to affect more than 57.4 million people worldwide, a number that is expected to almost triple to 152.8 million cases by 2050.

Addressing this, researchers from JNCASR, an autonomous institute of the Department of Science and Technology (DST), explored altered miRNAs in the Alzheimer’s brain for early, specific, and accurate clinical diagnosis of the condition.

The study published in the journal NAR Molecular Medicine “unveiled various miRNA-mRNA pathway networks altered in Alzheimer’s, which could potentially reveal various pathways to target for drug development,” said the team led by Madhu Ramesh and Prof. Thimmaiah Govindaraju from JNCASR.

In the study, the researchers used a double transgenic AD mouse model to discover novel miRNAs involved in AD development and progression and identified various miRNAs that are altered in the AD brain compared to the normal brain, which could potentially trigger the disease.

They discovered a significant increase in miR-7a — which targets the protein Klf4 — a master regulator of various gene expressions involved in Alzheimer’s.

Their detailed study showed that the miR-7a-Klf4 axis regulates neuroinflammation — a major cause of Alzheimer’s pathology. This axis also regulates an iron-mediated neuronal cell death mechanism involved in Alzheimer’s called ferroptosis.

“The study offers valuable insight into Alzheimer’s disease by uncovering the regulatory role of miR-7a in controlling neuroinflammation and ferroptosis via Klf4 targeting,” said Govindaraju.

The researchers also developed a miRNA-based therapeutic that targets Klf4 to prevent neuroinflammation and ferroptosis.

They carefully modified miR-7a to synthesise a mimic that significantly silenced Klf4 levels and rescued disease pathologies. They used Honokiol — a small molecule and natural product for pharmacological modulation of the miR7a-Klf4 axis.

Honokiol is a natural product found in bark and seed cones of Magnolia tree that targets Klf4 to stall neuroinflammation and ferroptotic cell death involved in Alzheimer’s. This demonstrates that the miR-7a-Klf4 axis is a novel target for Alzheimer’s and warrants further exploration to develop better therapeutics for the disease, the team said.

“With clinical evaluation, the developed miRNA mimic and small molecule, if proven safe and effective, could potentially cure Alzheimer’s, benefiting both patients and caregivers,” they noted.

–IANS

rvt/

Add us to Google Preferred Sources
Indian Community Editorial Team

The Indian Community Editorial Team curates, verifies, and publishes stories that matter to Indians worldwide. From culture and community to business and innovation, our mission is to spotlight voices, ideas, and events that bring our global community closer together. Have news or a story to share? Submit it to us at [email protected].

Add A Comment

Trump administration warns states of potential loss of federal election funding over security concerns

July 17, 2026

US Lawmakers Push for Digital Assets Bill to Protect Investors

July 17, 2026

Venezuela Earthquake Death Toll Reaches 5,069, Thousands Rescued

July 17, 2026

Iran Warns of Escalation if US Continues War Threats

July 17, 2026
  • Facebook
  • Twitter
  • Pinterest
  • Instagram
About Us
  • About Us
  • Contact Us
  • Terms of Service
Corporate
  • Download Indian Community App
  • Advertise Here
Facebook X (Twitter) Instagram
  • About Us
  • Contact Us
  • Terms of Service
© 2026 Designed by CreativeMerchants.

Type above and press Enter to search. Press Esc to cancel.