logo
episode-header-image
Mar 2024
56m 15s

H3K36me3, H4K16ac and Cryptic Transcript...

Active Motif
About this episode

In this episode of the Epigenetics Podcast, we talked with Weiwei Dang from Baylor College of Medicine about his work on molecular mechanisms of aging and the role of H3K36me3 and cryptic transcription in cellular aging.

The team in the Weiwei Dang lab explored the connection between histone marks, specifically H4K16 acetylation and H3K36 methylation, and aging. Dr. Dang describes how the lab conducted experiments by mutating H4K16 to determine its effect on lifespan. They observed that the mutation to glutamine accelerated the aging process and shortened lifespan, providing causal evidence for the relationship between H4K16 and lifespan. They also discovered that mutations in acetyltransferase and demethylase enzymes had opposite effects on lifespan, further supporting a causal relationship.

Weiwei Dang then discusses their expanded research on aging, conducting high-throughput screens to identify other histone residues and mutants in yeast that regulate aging. They found that most mutations at K36 shortened lifespan, and so they decided to follow up on a site that is known to be methylated and play a role in gene function. They discovered that H3K36 methylation helps suppress cryptic transcription, which is transcription that initiates from within the gene rather than at the promoter. Mutants lacking K36 methylation showed an aging phenotype. They also found evidence of cryptic transcription in various datasets related to aging and senescence, including C. elegans and mammalian cells.

References

  • Dang, W., Steffen, K., Perry, R. et al. Histone H4 lysine 16 acetylation regulates cellular lifespan. Nature 459, 802–807 (2009). https://doi.org/10.1038/nature08085

  • Sen, P., Dang, W., Donahue, G., Dai, J., Dorsey, J., Cao, X., Liu, W., Cao, K., Perry, R., Lee, J. Y., Wasko, B. M., Carr, D. T., He, C., Robison, B., Wagner, J., Gregory, B. D., Kaeberlein, M., Kennedy, B. K., Boeke, J. D., & Berger, S. L. (2015). H3K36 methylation promotes longevity by enhancing transcriptional fidelity. Genes & development, 29(13), 1362–1376. https://doi.org/10.1101/gad.263707.115

  • Yu, R., Cao, X., Sun, L. et al. Inactivating histone deacetylase HDA promotes longevity by mobilizing trehalose metabolism. Nat Commun 12, 1981 (2021). https://doi.org/10.1038/s41467-021-22257-2

  • McCauley, B.S., Sun, L., Yu, R. et al. Altered chromatin states drive cryptic transcription in aging mammalian stem cells. Nat Aging 1, 684–697 (2021). https://doi.org/10.1038/s43587-021-00091-x

     

Related Episodes

 

Contact
Up next
Nov 13
Region Capture Micro-C and 3D Genome Structure (Anders Sejr Hansen)
In this episode of the Epigenetics Podcast, we talked with Anders Sejr Hansen from MIT about his work on the impact of 3D genome structures on gene expression, the roles of proteins like CTCF and cohesin, and advanced techniques like Region Capture Micro-C for mapping genome orga ... Show More
1h 3m
Oct 30
Reprogramming Cell Identity through Epigenetic Mechanisms (Vincent Pasque)
In this episode of the Epigenetics Podcast, we talked with Vincent Pasque from KU Leuven about his work on the reprogramming of cell identity through epigenetic mechanisms, particularly during early development and cellular reprogramming. We begin by tracing Vincent's journey int ... Show More
40m 54s
Oct 16
The Impact of Chromatin Architecture on Alzheimer's and Parkinson's Disease (Ryan Corces)
In this episode of the Epigenetics Podcast, we talked with Ryan Corces from the Gladstone Institutes about his work on the impact of chromatin architecture on Alzheimer's and Parkinson's Disease. The discussion begins in discussing he start of Dr. Corces research career and he sh ... Show More
45m 41s
Recommended Episodes
Apr 2022
#072 Morgan Levine, PhD, on PhenoAge and the Epigenetics of Age Acceleration — can we change the pace?
Morgan Levine, Ph.D., developed the phenotypic aging clock called PhenoAge and is a Founding Principal Investigator at Altos Labs, a biotech company that seeks to understand the mechanisms that drive the aging process and age-related diseases with the hope of identifying possible ... Show More
1h 29m
May 2025
Aging
Aging is an essential topic for the MCAT, and in this episode, we’ll explore it from multiple angles. We start with the biological aspects of aging, including key processes like telomere shortening, cell senescence, and mitochondrial dysfunction—each providing insight into how an ... Show More
30m 51s
Mar 2025
The Science, Evolution, and Future of Lifespan and Healthspan with Dr. Michael Ringel
<p>On this episode of Longevity by Design, Dr. Gil Blander speaks with Dr. Michael Ringel, COO of Life Biosciences, about the science of aging and longevity. Michael discusses how evolution influences lifespan and why aging occurs. He explains the trade-off between resource alloc ... Show More
1h 12m
Jan 2025
#333 ‒ Longevity roundtable — the science of aging, geroprotective molecules, lifestyle interventions, challenges in research, and more | Steven Austad, Matt Kaeberlein, Richard Miller
<p><a href= "https://peterattiamd.com/longevityroundtable/?utm_source=podcast-feed&utm_medium=referral&utm_campaign=250127-pod-longevityroundtable&utm_content=250127-pod-longevityroundtable-podfeed"> View the Show Notes Page for This Episode</a></p> <p><a href= "https://peteratti ... Show More
2h 41m
Sep 2024
The Surprising Link Between Space Travel and Aging with Dr. David Furman
<p>On this episode of Longevity by Design, Ashley Reaver, MS, RD, CSSD, and Dr. Gil Blander, delve into the intricate world of the immune system and its impact on aging with Dr. David Furman, Associate Professor at the Buck Institute for Research on Aging. David discusses his gro ... Show More
1h 8m
Feb 2025
Menopause's Role in Human Evolution: The Grandmother Hypothesis with Kristen Hawkes
<p class="p1">Kristen Hawkes' "Grandmother Hypothesis" provides a fascinating perspective on human evolution, menopause, and the unique social structures of humans. This theory posits that the long post-reproductive lifespan of women evolved because grandmothers played a critical ... Show More
1h 15m
Aug 21
Evolution designed us to die fast; we can change that — Jacob Kimmel
Jacob Kimmel thinks he can find the transcription factors to reverse aging. We do a deep dive on why this might be plausible and why evolution hasn’t optimized for longevity. We also talk about why drug discovery has been getting exponentially harder, and what a new platform for ... Show More
1h 44m
Aug 12
191. Dr. Darshan Shah: How to Reverse Aging with Plasma Exchange and Stem Cell Therapy
Your genetics are never your destiny, even with genetic dispositions, you can prevent Alzheimer’s and optimise longevity. After my conversation with Dr. Darshan Shah of Next Health, I’m convinced we’re living through the biggest revolution in human optimisation since the discover ... Show More
1h 12m
Mar 2025
Your Genes AREN’T Your Fate—The NEW Science of DNA Biohacking for SuperHuman Health | Sharon Hausman-Cohen : 1257
<p>For decades, we’ve been told that our DNA is a fixed blueprint—an unchangeable code that dictates our health and lifespan. But what if that’s only half the story?&nbsp;</p><p>Sharon Hausman-Cohen, a physician, researcher, and genomics expert at IntellxxDNA, joins Dave to revea ... Show More
1h 18m
Mar 2025
412: The Biology of Transthyretin amyloid cardiomyopathy (ATTR-CM) with Dr. Daniel Judge
CardioNerds Cardiac Amyloidosis Series Chair Dr. Rick Ferraro and Episode Lead Dr. Anna Radakrishnan discuss the biology of transthyretin amyloid cardiomyopathy (ATTR-CM ) with Dr. Daniel Judge.  Notes were drafted by Dr. Anna Radakrishnan. The audio was engineered by student Dr. ... Show More
13m 1s
Listen to millions of songs and podcasts on Anghami