Anthony Leung

Evidence for improved DNA repair in long-lived bowhead whale - Nature Analysis of the longest-lived mammal, the bowhead whale, reveals an improved ability to repair DNA breaks, mediated by high levels of cold-inducible RNA-binding protein.  &nbs...

Thrilled that our PAR-labeling tech supported new Nature findings from the Gorbunova–Seluanov team! Characterizing CIRBP in bowhead whales reveals how PARP regulation may shape longevity. Kudos to Hongrui Liu & Raymond Cai!
🔗 www.nature.com/articles/s41...

Have you already seen this research article, recently published in LSA:
PARP10 is Critical for Stress Granule Initiation @leunglab.bsky.social www.life-science-alliance.org/content/8/12...

Just submitted for early access! Excited 😊

Thanks - will give it a try!

How to get access?

This study identifies PARP10 as a key regulator of stress granule assembly by ADP-ribosylating G3BP1 and modulating eIF2α phosphorylation and translation factor recruitment @leunglab.bsky.social www.life-science-alliance.org/content/8/12...

PARP10 is critical for stress granule initiation Stress granules (SGs) are cytoplasmic biomolecular condensates enriched with RNA and translation factors. They form in response to stress, in part through phosphorylation of the translation initiation...

How do our cells build “emergency rooms” when under attack?
New from our lab in Life Science Alliance: PARP10 triggers stress granule formation—revealing a way to tune how cells respond to stress, infection, or cancer.
Read: www.life-science-alliance.org/content/8/12...

As the Chair of Innovation Translation Council, venturing beyond lab science at the Bloomberg American Health Summit 2025.
A lot to absorb — and much to reflect on about scaling public health innovation to reach millions.

Grateful to Josh Sharfstein for making it possible to attend 🙏

research@BSPH Launches Innovation Translation Council | Johns Hopkins Bloomberg School of Public Health

The @johnshopkinssph.bsky.social Office of Research launched the Innovation Translation Council, chaired by BMB Professor Anthony Leung (@leunglab.bsky.social)! The ITC will connect researchers at the School with resources to translate their innovative research into community impacts. Learn more ⤵️

Congrats, Kevin!!

Thanks Waters, SCIEX, Seer, Proteintech and Avantor for sponsorship!!

What a fantastic day of science at FCBIS! @friedlab.bsky.social and I had a blast co-organizing this exciting dive into the chemistry-biology interface—great conversations, amazing energy, and a standout keynote by
@edwardmarcotte.bsky.social. Thanks to all who joined us!

Interferon function couples immune signaling to the ubiquitin–proteasome system.

Study from the @leunglab.bsky.social @johnshopkinsbmb.bsky.social

🆕 #preprintpeerreview @biorxivpreprint.bsky.social

Referee reports and author's response letter available here

--> doi.org/10.1101/2024...

Great to get to publish another one on the emerging connections between ADP-ribosylation, immune signaling, ubiquitin and protein aggregation/degradation

Ubiquitin is directly linked via an ester to protein-conjugated mono-ADP-ribose | The EMBO Journal imageimageCertain E3 ligases have been found to ubiquitylate hydroxyl groups on free NAD+ and ADP-ribose in vitro, but the in vivo occurrence of this dual post-translational modification has remained ...

Thanks Mike - also we saw ubiquitin involvement here - it will be interesting to see whether it related to your nice work on protein-conjugated ADP-ribose directly linked to ubiquitin. Need another nice bakery to chat more :-)

doi.org/10.1038/s443...

For #condensate folks 👀
Our study tackles a key gap: how condensate composition is regulated.
These p62 bodies require PARP14—but it’s not just presence that matters.
It’s PARP14’s enzymatic activity that drives formation.
In fact, more PARP14 without activity ≠ condensation.

Why it matters 👇
p62 bodies are key hubs for protein degradation & immune signaling—long linked to #cancer & #neurodegeneration.
Our study shows interferon + PARP14-driven ADP-ribosylation rewires their formation, revealing a new immune-regulated condensate class.

Interferon-induced PARP14-mediated ADP-ribosylation in p62 bodies requires the ubiquitin-proteasome system | The EMBO Journal imageimageInterferon induces the formation of ADP-ribosylation (ADPr)-enriched p62 bodies, requiring PARP14 and p62. Unlike canonical p62 bodies, these ADPr-enriched structures are independent of auto...

🥳 Out now @embojournal.org!
Interferon induces a new class of p62 bodies, with #antiviral & #immunotherapy implications.
p62 is usually linked to #autophagy — but not here.
These are driven by PARP14-mediated ADP-ribosylation & rely on #ubiquitin #proteasome system. www.embopress.org/doi/full/10....

In the midst of funding uncertainty in D.C., our lab took a moment to see the cherry blossoms.

We’re not naive—we know the challenges.

But we believe in science, in community, and in each other.

We’re in this together.

M

Great work from Dr. Isabel Uribe, based on her PhD thesis research! 🎓 With collaborations across three top proteomics teams led by Chan Hyun Na, Benjamin A. Garcia @garcialabms.bsky.social & her co-mentor, Benjamin C. Orsburn @proteomicsnews.bsky.social. 🎉

dELTA-MS: A Mass Spectrometry-Based Proteomics Approach for Identifying ADP-Ribosylation Sites and Forms ADP-ribosylation, characterized by the addition of adenosine diphosphate ribose, can occur in both monomeric (MARylation) and polymeric (PARylation) forms. Little is known about the specific contribut...

New Paper💡PARP enzymes regulate ADP-ribosylation, a protein modification linked to cancer, infections & neurodegeneration. But it comes with two forms—MARylation (single) & PARylation (multiple). Meet dELTA-MS, a mass spec method that identifies both in one experiment!
pubs.acs.org/doi/full/10....

Be sure to also read about:
☘️ #Nrf2 activity regulation by #UbLigases (Albena Dinkova-Kostova et al)
☘️ roles of structured domains in #biomolecularcondensates (@jerelleaj.bsky.social et al)
☘️ PARPs and ADP-ribosylation-mediated #biomolecularcondensates (@leunglab.bsky.social et al)

...

Ubiquitin is directly linked via an ester to protein-conjugated mono-ADP-ribose | The EMBO Journal imageimageCertain E3 ligases have been found to ubiquitylate hydroxyl groups on free NAD+ and ADP-ribose in vitro, but the in vivo occurrence of this dual post-translational modification has remained ...

I'm super excited to share our study in collaboration with @jnpruneda.bsky.social, published today in @embojournal.org! We show that PARPs are modified with a non-canonical ester-linked mono-ADP-ribosylated ubiquitin species for the first time in cells: www.embopress.org/doi/full/10....

Celebrating 14 years of science, teamwork, and resilience! To mark our lab’s anniversary, we traded pipettes for pottery—turns out shaping clay is just as therapeutic as shaping experiments. With NIH funding uncertainties, a little calm goes a long way. Grateful for this team! #LabLife

Excited to share our new review on biomolecular condensates mediated by PARPs and ADP-ribosylation @ Trends in Biochemical Sciences!

Despite the uncertainty, science must march forward. Grateful for the support that makes discovery possible. #FundScience #KeepScienceStrong

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A Primer on Indirect Cost Rates

Thanks for highlighting our work, Marcin!

With ~2,000 PAR-binding proteins identified, many enriched in condensates and bind RNA, our work provides a new mechanistic framework for the role of PAR and its crosstalk with the chemically similar counterpart, RNA, in condensate biology

Notably, PARP13 mutations reduce stress granule fluidity, resembling changes seen in neurodegeneration. These mutations could serve as a valuable tool to study how altered granule dynamics might increase toxicity in neurodegenerative disease models.