Samuels Lab
@samuels-lab.bsky.social
We aim to shed new light on the complex networks formed in #melanoma, and learn how we can utilize this information to treat melanoma patients
@Weizmann Institute of Science
@Weizmann Institute of Science
Pinned
Samuels Lab
@samuels-lab.bsky.social
· Mar 30
Thrilled to share our latest work in Cancer Cell! 🚨 Led by Chen Weller, Osnat Bartok, with amazing collaborators Chris Mcginnis, Ansuman Satpathy, Andreas Schlosser, Eytan Ruppin & more, we reveal that impaired translation fidelity enhances anti-tumor immunity!🧵(1/7)
Proud of @yardenasamuels.bsky.social for her fascinating plenary session at the @theaacr.bsky.social annual meeting in Chicago! A great thank you to the program committee chairs, Drs. Matthew Vander Heiden and Lillian Siu for this opportunity. @mvhlab.bsky.social @lilliansiu.bsky.social #AACR25
April 29, 2025 at 3:44 PM
Proud of @yardenasamuels.bsky.social for her fascinating plenary session at the @theaacr.bsky.social annual meeting in Chicago! A great thank you to the program committee chairs, Drs. Matthew Vander Heiden and Lillian Siu for this opportunity. @mvhlab.bsky.social @lilliansiu.bsky.social #AACR25
Reposted by Samuels Lab
Online Now: Translation dysregulation in cancer as a source for targetable antigens
Translation dysregulation in cancer as a source for targetable antigens
Weller et al. substantiate the role of translation dysregulation in mediating anti-tumor immunity by demonstrating that TYW2 loss in melanoma cells induces aberrant peptide MHC presentation, increasing both tumor immunogenicity and sensitivity to ICB therapy. TYW2 expression levels in patients with melanoma predict clinical outcomes, highlighting translation regulatory factors as immunotherapy targets.
dlvr.it
March 27, 2025 at 6:51 PM
Online Now: Translation dysregulation in cancer as a source for targetable antigens
Reposted by Samuels Lab
Translation dysregulation may serve as a new source for identifying cancer-associated antigens, and may also help to predict responses to checkpoint blockade bit.ly/3E4OMY8 #CheckpointBlockade #CancerImmunotherapy @wellerchen.bsky.social @Samuels-lab.bsky.social @yardenasamuels.bsky.social
April 2, 2025 at 3:55 PM
Translation dysregulation may serve as a new source for identifying cancer-associated antigens, and may also help to predict responses to checkpoint blockade bit.ly/3E4OMY8 #CheckpointBlockade #CancerImmunotherapy @wellerchen.bsky.social @Samuels-lab.bsky.social @yardenasamuels.bsky.social
In a study published in @cp-cancercell.bsky.social researchers from our lab manipulated cancer cells into making themselves visible to the immune system, creating a new approach that gives hope to patients with previously untreatable disease>> bit.ly/cancer-expos...
April 3, 2025 at 6:26 AM
In a study published in @cp-cancercell.bsky.social researchers from our lab manipulated cancer cells into making themselves visible to the immune system, creating a new approach that gives hope to patients with previously untreatable disease>> bit.ly/cancer-expos...
Thrilled to share our latest work in Cancer Cell! 🚨 Led by Chen Weller, Osnat Bartok, with amazing collaborators Chris Mcginnis, Ansuman Satpathy, Andreas Schlosser, Eytan Ruppin & more, we reveal that impaired translation fidelity enhances anti-tumor immunity!🧵(1/7)
March 30, 2025 at 7:08 AM
Thrilled to share our latest work in Cancer Cell! 🚨 Led by Chen Weller, Osnat Bartok, with amazing collaborators Chris Mcginnis, Ansuman Satpathy, Andreas Schlosser, Eytan Ruppin & more, we reveal that impaired translation fidelity enhances anti-tumor immunity!🧵(1/7)
Thrilled to share that our new paper on Macrophage Migration Inhibitory Factor (MIF) as a key regulator of immune evasion in melanoma, is now published in Cancer Discovery! Find the full study here: aacrjournals.org/cancerdiscov...
Temporal Genomic Analysis of Homogeneous Tumor Models Reveals Key Regulators of Immune Evasion in Melanoma
Analysis of homogeneous rejected and non-rejected melanoma tumors uncovers critical immune evasion mechanisms, identifies MIF as a key regulator, and stresses the key role of tumor-associated macropha...
aacrjournals.org
March 9, 2025 at 11:48 AM
Thrilled to share that our new paper on Macrophage Migration Inhibitory Factor (MIF) as a key regulator of immune evasion in melanoma, is now published in Cancer Discovery! Find the full study here: aacrjournals.org/cancerdiscov...