Tessa R Kravchenko

1 publication 2024 – 2024

Caenorhabditis elegansCaenorhabditis elegans ProteinsTranscription FactorsHistonesLipid Metabolism

Research Overview

# Tessa R Kravchenko Tessa R Kravchenko studies how stress experienced early in life can protect organisms from age-related diseases by changing how cells metabolize fats. Her research shows that mild developmental stress triggers long-lasting metabolic changes controlled by a stress-response protein called HSF-1, which ultimately prevents the toxic protein buildup associated with Alzheimer's and similar neurodegenerative diseases.

Publications

Early life changes in histone landscape protect against age-associated amyloid toxicities through HSF-1-dependent regulation of lipid metabolism.

2024

Nature aging

Oleson BJ, Bhattrai J, Zalubas SL, Kravchenko TR, Ji Y +7 more

Plain English
Researchers exposed young worms to mild stress during development, which triggered changes in how their cells use fat for energy. These early changes created a protective effect that lasted into old age, preventing the toxic buildup of amyloid proteins (a hallmark of neurodegenerative diseases like Alzheimer's). The protection worked because a stress-response protein called HSF-1 rewired the worms' metabolism to burn fat more efficiently, and this metabolic shift is what actually defended against the amyloid damage.

View on PubMed

Frequent Co-Authors

Bryndon J Oleson Janakraj Bhattrai Sarah L Zalubas Yuanyuan Ji Emily L Jiang Christine C Lu Ciara R Madden Julia G Coffman Daphne Bazopoulou Jace W Jones

Publication data sourced from PubMed . Plain-English summaries generated by AI. Not medical advice.