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Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
by Dangaj Laniti, Denarda , Xu, Jimmy , Dadey, Rebekah E , Mesaros, Clementina , Bao, Riyue , Vendetti, Frank P , Kedziora, Katarzyna M , Apiz Saab, Juan J , Rivadeneira, Dayana B , Yang, Baixue , Minasyan, Aspram , Aird, Katherine M , Delgoffe, Greg M , Kirk-Wood, John M , Cole, Aidan R , Hempel, Nadine , Kishore, Akash , Amalric, Amandine , Wang, Hui , Wickramasinghe, Jayamanna , Sharrow, Allison C , Kossenkov, Andrew V , Soloff, Adam C , Davar, Diwakar , Levasseur, Evan , Snyder, Nathaniel W , Chen, Jie , Hurd, Drew , Kunning, Sheryl , Buj, Raquel , Tangudu, Naveen Kumar , Das, Jishnu , Uboveja, Apoorva , Muir, Alexander , Danielson, Jeff , Bakkenist, Christopher J , Bruno, Tullia C , Barras, David
2025
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Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
by Dangaj Laniti, Denarda , Xu, Jimmy , Dadey, Rebekah E , Mesaros, Clementina , Bao, Riyue , Vendetti, Frank P , Kedziora, Katarzyna M , Apiz Saab, Juan J , Rivadeneira, Dayana B , Yang, Baixue , Minasyan, Aspram , Aird, Katherine M , Delgoffe, Greg M , Kirk-Wood, John M , Cole, Aidan R , Hempel, Nadine , Kishore, Akash , Amalric, Amandine , Wang, Hui , Wickramasinghe, Jayamanna , Sharrow, Allison C , Kossenkov, Andrew V , Soloff, Adam C , Davar, Diwakar , Levasseur, Evan , Snyder, Nathaniel W , Chen, Jie , Hurd, Drew , Kunning, Sheryl , Buj, Raquel , Tangudu, Naveen Kumar , Das, Jishnu , Uboveja, Apoorva , Muir, Alexander , Danielson, Jeff , Bakkenist, Christopher J , Bruno, Tullia C , Barras, David
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2025
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Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
by Dangaj Laniti, Denarda , Xu, Jimmy , Dadey, Rebekah E , Mesaros, Clementina , Bao, Riyue , Vendetti, Frank P , Kedziora, Katarzyna M , Apiz Saab, Juan J , Rivadeneira, Dayana B , Yang, Baixue , Minasyan, Aspram , Aird, Katherine M , Delgoffe, Greg M , Kirk-Wood, John M , Cole, Aidan R , Hempel, Nadine , Kishore, Akash , Amalric, Amandine , Wang, Hui , Wickramasinghe, Jayamanna , Sharrow, Allison C , Kossenkov, Andrew V , Soloff, Adam C , Davar, Diwakar , Levasseur, Evan , Snyder, Nathaniel W , Chen, Jie , Hurd, Drew , Kunning, Sheryl , Buj, Raquel , Tangudu, Naveen Kumar , Das, Jishnu , Uboveja, Apoorva , Muir, Alexander , Danielson, Jeff , Bakkenist, Christopher J , Bruno, Tullia C , Barras, David
2025

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Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis
Journal Article

Zinc availability in the tumor microenvironment dictates anti-PD1 response in CDKN2A Low tumors via increased macrophage phagocytosis

Dangaj Laniti, Denarda,
Xu, Jimmy,
Dadey, Rebekah E,
Mesaros, Clementina,
Bao, Riyue,
Vendetti, Frank P,
Kedziora, Katarzyna M,
Apiz Saab, Juan J,
Rivadeneira, Dayana B,
Yang, Baixue,
Minasyan, Aspram,
Aird, Katherine M,
Delgoffe, Greg M,
Kirk-Wood, John M,
Cole, Aidan R,
Hempel, Nadine,
Kishore, Akash,
Amalric, Amandine,
Wang, Hui,
Wickramasinghe, Jayamanna,
Sharrow, Allison C,
Kossenkov, Andrew V,
Soloff, Adam C,
Davar, Diwakar,
Levasseur, Evan,
Snyder, Nathaniel W,
Chen, Jie,
Hurd, Drew,
Kunning, Sheryl,
Buj, Raquel,
Tangudu, Naveen Kumar,
Das, Jishnu,
Uboveja, Apoorva,
Muir, Alexander,
Danielson, Jeff,
Bakkenist, Christopher J,
Bruno, Tullia C,
Barras, David
2025
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Overview
Anti-PD1 therapies are primarily thought to rely on functional T cell responses; yet tumors with limited T cell infiltration can still benefit, suggesting alternative mechanisms contribute to therapeutic efficacy. Indeed, we found that myeloid-rich, T cell-poor tumor models respond to anti-Pd1, and this is dependent on a cancer cell-macrophage crosstalk mediated by cancer cell expression. Mechanistically, we found that cancer cells with decreased expression (C ), which occurs in ∼50% of all human cancers, reorganize zinc compartmentalization by upregulating the zinc importer Slc39a9 at the plasma membrane. Increased cancer cell plasma membrane Slc39a9 leads to intracellular zinc accumulation in cancer cells and depletion of zinc in the tumor microenvironment (TME), resulting in zinc-starved tumor-associated macrophages (TAMs) with reduced phagocytic activity. Restoring zinc availability in TAMs-via dietary supplementation or Slc39a9 knockdown in cancer cells-reprograms TAMs to a pro-phagocytic state and sensitizes tumors to anti-Pd1 therapy. Remarkably, Slc39a9 knockdown tumors respond to anti-Pd1 in Rag1 mice, and co-injection of zinc-replete macrophages is sufficient to drive an anti-Pd1 response in immunodeficient mice, demonstrating the T cell-independent nature of this response. Clinically, TAMs from cancer patients show reduced zinc and phagocytosis gene signatures. Moreover, patients with lower circulating zinc levels have significantly worse time-to-event outcomes than those with higher levels. Together, these findings uncover a previously unrecognized mechanism by which cancer cells outcompete TAMs for zinc, impairing their function and limiting anti-Pd1 efficacy. They also provide evidence that macrophages alone, without T cells, can enhance anti-PD1 response through zinc-mediated reprogramming of phagocytosis.
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