Documentdetail
ID kaart
oai:pubmedcentral.nih.gov:1148...
Onderwerp
ArticleAuteur
Tiedje, Vera Vela, Pablo Sánchez Yang, Julie L. Untch, Brian R. Boucai, Laura Stonestrom, Aaron J. Costa, Alberto Bueno Expósito, Sebastià Franch Srivastava, Avi Kerpelev, Marina Greenberg, Jillian Wereski, Mathew Kulick, Amanda Chen, Kevin Qin, Tianyue Im, Soo-Yeon Krishnan, Aishwarya Martinez Benitez, Anthony R. Pluvinet, Raquel Sahin, Merve Menghrajani, Kamal Krishnamoorthy, Gnana P. de Stanchina, Elisa Zehir, Ahmet Satija, Rahul Knauf, Jeffrey Bowman, Robert L Esteller, Manel Devlin, Sean Berger, Michael F. Koche, Richard P. Fagin, James A. Levine, Ross LLangue
enEditor
Cold Spring Harbor Laboratory
Categorie
biorxiv
Jaar
2024
vermelding datum
23-10-2024
Trefwoorden
thyroid cancer macrophages atc tet2 inhibition atcs -mutantBeschrijving
Anaplastic thyroid cancer (ATC) is a clinically aggressive malignancy with a dismal prognosis.
Combined BRAF/MEK inhibition offers significant therapeutic benefit in patients with BRAF (V600E) -mutant ATCs.
However, relapses are common and overall survival remains poor.
Compared with differentiated thyroid cancer, a hallmark of ATCs is significant infiltration with myeloid cells, particularly macrophages.
ATCs are most common in the aging population, which also has an increased incidence of TET2 -mutant clonal hematopoiesis (CH).
CH-mutant macrophages have been shown to accelerate CH-associated pathophysiology including atherosclerosis.
However, the clinical and mechanistic contribution of CH-mutant clones to solid tumour biology, prognosis and therapeutic response has not been elucidated.
Here we show that TET2 -mutant CH is enriched in the tumour microenvironment of patients with solid tumours and associated with adverse prognosis in ATC patients.
We find that Tet2 -mutant macrophages selectively infiltrate mouse Braf (V600E) -mutant ATC and that their overexpression of Tgfβ-family ligands mediates resistance to BRAF/MEK inhibition.
Importantly, inhibition of Tgfβ signaling restores sensitivity to MAPK pathway inhibition, opening a path for synergistic strategies to improve outcomes of patients with ATCs and concurrent CH.
Tiedje, Vera,Vela, Pablo Sánchez,Yang, Julie L.,Untch, Brian R.,Boucai, Laura,Stonestrom, Aaron J.,Costa, Alberto Bueno,Expósito, Sebastià Franch,Srivastava, Avi,Kerpelev, Marina,Greenberg, Jillian,Wereski, Mathew,Kulick, Amanda,Chen, Kevin,Qin, Tianyue,Im, Soo-Yeon,Krishnan, Aishwarya,Martinez Benitez, Anthony R.,Pluvinet, Raquel,Sahin, Merve,Menghrajani, Kamal,Krishnamoorthy, Gnana P.,de Stanchina, Elisa,Zehir, Ahmet,Satija, Rahul,Knauf, Jeffrey,Bowman, Robert L,Esteller, Manel,Devlin, Sean,Berger, Michael F.,Koche, Richard P.,Fagin, James A.,Levine, Ross L, 2024, Targetable treatment resistance in thyroid cancer with clonal hematopoiesis, Cold Spring Harbor Laboratory
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