Davide Ruggero
@ruggerolab.bsky.social
A fascinating connection between translation decoding specificity through metabolites that help cells control a vital redox state. Congrats Josh @mendell-lab.bsky.social and Fred! @fred-rehfeld.bsky.social
Colliding ribosomes are potent signals of cellular stress. But do cells use ‘programmed’ ribosome collisions to regulate gene expression? I’m excited to present a new story from my lab led by Frederick Rehfeld(@fred-rehfeld.bsky.social) which revealed that the answer is YES! Read on to find out how👇
Oxidative stress sensing by the translation elongation machinery promotes production of detoxifying selenoproteins
Selenocysteine, incorporated into polypeptides at recoded termination codons, plays an essential role in redox biology. Using GPX1 and GPX4, selenoenzymes that mitigate oxidative stress, as reporters,...
www.biorxiv.org
October 17, 2025 at 6:25 PM
A fascinating connection between translation decoding specificity through metabolites that help cells control a vital redox state. Congrats Josh @mendell-lab.bsky.social and Fred! @fred-rehfeld.bsky.social
This will be an exciting meeting on many aspects of RNA biology, the impact on tumorigenesis and theraupric implications. Including: Splicing, Noncoding RNA, RNA modifications, Translation, New technologies, RNA and immunology, Protein-RNA assembly, & cancer therapeutics in targeting RNA. Join us!
If you’re interested in the interplay between regulation (or mis-regulation) of RNA processing and cancer, please check out the 2025 FASEB RNA Processing in Cancer meeting Oct 5-9 2025 in Sacramento CA!
events.faseb.org/event/RNA-Pr...
events.faseb.org/event/RNA-Pr...
RNA Processing in Cancer: From Bench to Bedside
events.faseb.org
August 13, 2025 at 4:34 PM
This will be an exciting meeting on many aspects of RNA biology, the impact on tumorigenesis and theraupric implications. Including: Splicing, Noncoding RNA, RNA modifications, Translation, New technologies, RNA and immunology, Protein-RNA assembly, & cancer therapeutics in targeting RNA. Join us!
Reposted by Davide Ruggero
Small-molecule RNA therapeutics to target prostate cancer
Small-molecule RNA therapeutics to target prostate cancer
Kuzuoglu-Ozturk et al. showcase a therapeutic approach, “translatome therapy,” to combat lethal prostate cancer. Zotatifin, a clinical molecule, targets the RNA-helicase eIF4A. Zotatifin decreases the select translation of key oncogenes, androgen receptor (AR), and HIF1α through remodeling their 5′ UTR RNA structure. Zotatifin enhances anti-androgen and radiotherapy sensitivity, highlighting a promising anti-cancer treatment.
dlvr.it
May 13, 2025 at 6:52 PM
Small-molecule RNA therapeutics to target prostate cancer
Reposted by Davide Ruggero
Excited to share our first study using nanopore direct RNA seq to comprehensively characterize RNA features. We believe that our deep and high coverage datasets should be a nice resource for the field! www.cell.com/cell-genomic...
Nanopore direct RNA sequencing of human transcriptomes reveals the complexity of mRNA modifications and crosstalk between regulatory features
Understanding the interactions between various mRNA features—such as RNA modifications,
poly(A) tail length, and splicing—has been highly sought after but remains largely
elusive. Here, Kim and Savill...
www.cell.com
May 13, 2025 at 9:13 PM
Excited to share our first study using nanopore direct RNA seq to comprehensively characterize RNA features. We believe that our deep and high coverage datasets should be a nice resource for the field! www.cell.com/cell-genomic...
Reposted by Davide Ruggero
🍰Interested in reading more about the study? Here's the N&Vs article written by Joanna R. Kovalski & Davide Ruggero.
👉https://rdcu.be/ejwqJ
bit.ly/4jnydWI
👉https://rdcu.be/ejwqJ
bit.ly/4jnydWI
Breaking up translation condensates in cancer - Nature Cell Biology
Translational control is emerging as a key regulator of cancer. The RNA-binding protein PABPC1 is shown to drive chronic myeloid leukaemia (CML) by enhancing the translation of pro-oncogenic mRNAs thr...
bit.ly
April 27, 2025 at 7:02 AM
🍰Interested in reading more about the study? Here's the N&Vs article written by Joanna R. Kovalski & Davide Ruggero.
👉https://rdcu.be/ejwqJ
bit.ly/4jnydWI
👉https://rdcu.be/ejwqJ
bit.ly/4jnydWI
Reposted by Davide Ruggero
Online Now: Ribosomal rebellion: When protein factories drive cancer progression
Ribosomal rebellion: When protein factories drive cancer progression
In Cancer Cell, two studies unveil mechanisms by which co-option of the protein synthesis machinery promotes cancer progression and potential therapeutic interventions. Kuzuoglu-Ozturk et al. show that eIF4A-mediated enhancement of oncogenic transcript translation initiation drives cancer progression, while Weller et al. demonstrate how aberrant transfer RNA (tRNA) modification disrupts translational fidelity to produce neoantigens.
dlvr.it
April 25, 2025 at 11:52 AM
Online Now: Ribosomal rebellion: When protein factories drive cancer progression
Fascinating work on noncoding snoRNA sequences on ribosome biogenesis and its implication in cancer cell fitness! Congrats Josh @mendell-lab.bsky.social and team!
It's difficult to focus on science with everything going on, but I still enjoy hearing about other people's work here, so I want to continue sharing ours. Congrats to postdoc Jong-Sun Lee for his outstanding work published in @cp-molcell.bsky.social! Details in thread👇
www.cell.com/molecular-ce...
www.cell.com/molecular-ce...
An ultraconserved snoRNA-like element in long noncoding RNA CRNDE promotes ribosome biogenesis and cell proliferation
Cancer cells frequently enhance ribosome production to support rapid growth. Here,
Lee et al. demonstrate that an isoform of lncRNA CRNDE containing an ultraconserved
element (CRNDEUCE) promotes 60S r...
www.cell.com
April 4, 2025 at 1:27 AM
Fascinating work on noncoding snoRNA sequences on ribosome biogenesis and its implication in cancer cell fitness! Congrats Josh @mendell-lab.bsky.social and team!
Thanks Levi Gadye and Laura Kurtzman for the thoughtful and creative press release! @UCSF @UCSFCancer
x.com/UCSFCancer/sta…
x.com/UCSFCancer/sta…
March 24, 2025 at 1:01 AM
Thanks Levi Gadye and Laura Kurtzman for the thoughtful and creative press release! @UCSF @UCSFCancer
x.com/UCSFCancer/sta…
x.com/UCSFCancer/sta…
And we couldn't make it without @PCFnews @pcarroll_ and Benioff Initiative for Prostate Cancer Research support!
cell.com/cancer-cell/fu…
cell.com/cancer-cell/fu…
Small-molecule RNA therapeutics to target prostate cancer
Kuzuoglu-Ozturk et al. showcase a therapeutic approach, “translatome therapy,” to combat lethal prostate cancer. Zotatifin, a clinical molecule, targets the RNA-helicase eIF4A. Zotatifin decreases the select translation of key oncogenes, androgen receptor (AR), and HIF1α through remodeling their 5′ UTR RNA structure. Zotatifin enhances anti-androgen and radiotherapy sensitivity, highlighting a promising anti-cancer treatment.
www.cell.com
March 24, 2025 at 1:01 AM
And we couldn't make it without @PCFnews @pcarroll_ and Benioff Initiative for Prostate Cancer Research support!
cell.com/cancer-cell/fu…
cell.com/cancer-cell/fu…
Happy to share our new work with @haognguyen on targeting mRNA translation of oncogenes by RNA structure remodeling with a small molecule zotatifin. Congrats to @DuyguKuzuoglu an amazing postdoc and all the authors and collaborators!
cell.com/cancer-cell/fu…
cell.com/cancer-cell/fu…
Small-molecule RNA therapeutics to target prostate cancer
Kuzuoglu-Ozturk et al. showcase a therapeutic approach, “translatome therapy,” to combat lethal prostate cancer. Zotatifin, a clinical molecule, targets the RNA-helicase eIF4A. Zotatifin decreases the select translation of key oncogenes, androgen receptor (AR), and HIF1α through remodeling their 5′ UTR RNA structure. Zotatifin enhances anti-androgen and radiotherapy sensitivity, highlighting a promising anti-cancer treatment.
www.cell.com
March 24, 2025 at 1:01 AM
Happy to share our new work with @haognguyen on targeting mRNA translation of oncogenes by RNA structure remodeling with a small molecule zotatifin. Congrats to @DuyguKuzuoglu an amazing postdoc and all the authors and collaborators!
cell.com/cancer-cell/fu…
cell.com/cancer-cell/fu…
Great tools and tips for the field to study IRES-dependent translation. Beautiful dissection of true HOX IRES translation in developing embryos. Congrats to all @mbarnalab @KatLeppek!
x.com/mbarnalab/stat…
x.com/mbarnalab/stat…
March 24, 2025 at 1:01 AM
Great tools and tips for the field to study IRES-dependent translation. Beautiful dissection of true HOX IRES translation in developing embryos. Congrats to all @mbarnalab @KatLeppek!
x.com/mbarnalab/stat…
x.com/mbarnalab/stat…
A tour de force in deciphering in action the intriguing dynamic composition of ribosomes in vivo. Beautiful work! Congrats to all @mbarnalab!
x.com/mbarnalab/stat…
x.com/mbarnalab/stat…
March 24, 2025 at 1:01 AM
A tour de force in deciphering in action the intriguing dynamic composition of ribosomes in vivo. Beautiful work! Congrats to all @mbarnalab!
x.com/mbarnalab/stat…
x.com/mbarnalab/stat…
Thanks Levi Gadye, for the wonderful and insightful highlight of our last publication! @UCSF
ucsf.edu/news/2025/02/4…
ucsf.edu/news/2025/02/4…
Can Scientists Throw a Wrench into Cancer’s Growth Gears?
UCSF scientists discover how cancer cells hijack the protein factory of the cell to churn out MYC protein, the driver of 70% of all cancers.
www.ucsf.edu
March 24, 2025 at 1:00 AM
Thanks Levi Gadye, for the wonderful and insightful highlight of our last publication! @UCSF
ucsf.edu/news/2025/02/4…
ucsf.edu/news/2025/02/4…
Congrats @mbarnalab @travisclantz and Christine on this award and making progress on targeting ribosomes to increase protein synthesis!
x.com/mbarnalab/stat…
x.com/mbarnalab/stat…
March 24, 2025 at 1:00 AM
Congrats @mbarnalab @travisclantz and Christine on this award and making progress on targeting ribosomes to increase protein synthesis!
x.com/mbarnalab/stat…
x.com/mbarnalab/stat…
Congrats on this beautiful paper on another great link between lipid metabolism and translation control! @DeSiqueiraMK, @ClaudioVillanu, and team!
x.com/DeSiqueiraMK/s…
x.com/DeSiqueiraMK/s…
March 24, 2025 at 1:00 AM
Congrats on this beautiful paper on another great link between lipid metabolism and translation control! @DeSiqueiraMK, @ClaudioVillanu, and team!
x.com/DeSiqueiraMK/s…
x.com/DeSiqueiraMK/s…
Amazing work on uncovering a new role for tRNAs in linking mRNA stability with codon-specific translation! Congrats @Mendell_lab and team!!
x.com/Mendell_lab/st…
x.com/Mendell_lab/st…
March 24, 2025 at 1:00 AM
Amazing work on uncovering a new role for tRNAs in linking mRNA stability with codon-specific translation! Congrats @Mendell_lab and team!!
x.com/Mendell_lab/st…
x.com/Mendell_lab/st…
Amazing paper on specialized ribosomes and their roles in cancer immune response! Congrats @liamfaller and all team!
t.co/yR2JfIZOTp
t.co/yR2JfIZOTp
March 24, 2025 at 1:00 AM
Amazing paper on specialized ribosomes and their roles in cancer immune response! Congrats @liamfaller and all team!
t.co/yR2JfIZOTp
t.co/yR2JfIZOTp
March 24, 2025 at 1:00 AM
Fantastic collaboration with the @mbarnalab @TheVictoriaHung @AndrewL85556734 Theo and team on ribosome composition in cancer, development and macrophages. @UCSFCancer @ACS_Research @StanfordMed
x.com/MolecularCell/…
x.com/MolecularCell/…
March 24, 2025 at 1:00 AM
Fantastic collaboration with the @mbarnalab @TheVictoriaHung @AndrewL85556734 Theo and team on ribosome composition in cancer, development and macrophages. @UCSFCancer @ACS_Research @StanfordMed
x.com/MolecularCell/…
x.com/MolecularCell/…
Thanks so much Levi Gadye @UCSFCancer @UCSFMedicine for this wonderful summary of our recent research!
x.com/UCSF/status/18…
x.com/UCSF/status/18…
March 24, 2025 at 1:00 AM
Thanks so much Levi Gadye @UCSFCancer @UCSFMedicine for this wonderful summary of our recent research!
x.com/UCSF/status/18…
x.com/UCSF/status/18…
Congrats Daphna @D_Rothschild_ Theo, and team @mbarnalab Beautiful and important work.
x.com/D_Rothschild_/…
x.com/D_Rothschild_/…
March 24, 2025 at 1:00 AM
Congrats Daphna @D_Rothschild_ Theo, and team @mbarnalab Beautiful and important work.
x.com/D_Rothschild_/…
x.com/D_Rothschild_/…
Fascinating work on noncoding snoRNA sequences on ribosome biogenesis! Congrats Josh @Mendell_lab and team!
x.com/Mendell_lab/st…
x.com/Mendell_lab/st…
March 24, 2025 at 1:00 AM
Fascinating work on noncoding snoRNA sequences on ribosome biogenesis! Congrats Josh @Mendell_lab and team!
x.com/Mendell_lab/st…
x.com/Mendell_lab/st…
Ribosomal protein (rpl40) methylation regulates mRNA translation critical for gastric cancer opening new therapies. Congrats to all!
nature.com/articles/s4158…
nature.com/articles/s4158…
SMYD5 methylation of rpL40 links ribosomal output to gastric cancer
Nature - The lysine methyltransferase SMYD5 and its newly identified substrate ribosomal protein L40 are implicated in the progression of gastric adenocarcinoma, and ablation of SMYD5 prevents...
www.nature.com
March 24, 2025 at 12:59 AM
Ribosomal protein (rpl40) methylation regulates mRNA translation critical for gastric cancer opening new therapies. Congrats to all!
nature.com/articles/s4158…
nature.com/articles/s4158…
Fascinating work unveiling a specific function of CNOT3 as a key regulator of translation control in cancer. Congrats Ly @Vuphuongly and team!
x.com/Vuphuongly/sta…
x.com/Vuphuongly/sta…
March 24, 2025 at 12:59 AM
Fascinating work unveiling a specific function of CNOT3 as a key regulator of translation control in cancer. Congrats Ly @Vuphuongly and team!
x.com/Vuphuongly/sta…
x.com/Vuphuongly/sta…
Fascinating work on the interaction between 5’UTR alternative splicing and translation control in cancer and therapy. Congrats @andrei_thomas_t and all collaborators!
x.com/andrei_thomas_…
x.com/andrei_thomas_…
March 24, 2025 at 12:59 AM
Fascinating work on the interaction between 5’UTR alternative splicing and translation control in cancer and therapy. Congrats @andrei_thomas_t and all collaborators!
x.com/andrei_thomas_…
x.com/andrei_thomas_…