Macrophages constitute a dominant and functionally diverse immune population within the microenvironment of pancreatic ductal adenocarcinoma (PDAC), yet how macrophage heterogeneity contributes to the tumor remains poorly defined. In an institutional cohort of 145 PDAC specimens, we identified a population of multinucleated giant cells (MGCs) of macrophage origin, an entity previously described in chronic inflammation but rarely in cancer. CD68⁺ MGCs were present in 28% of tumors, enriched in squamous, non-glandular regions, and more frequent after neoadjuvant chemotherapy. By integrating spatial transcriptomics and quantitative imaging, we defined the features of these cells, which, compared with MGCs in non-neoplastic inflammatory lesions, lacked canonical polarization markers (HLA-DR, CD163) and displayed a distinctive transcriptional program characterized by upregulation of the POLR2K, TUBA8, COX5B, and VDAC1 genes, which encode proteins involved in DNA repair, oxidative stress, and MYC signaling. Spatial analyses revealed activation of hypoxia and extracellular matrix–remodeling pathways in MGC-associated niches, and experimental hypoxia promoted MGC formation in vitro. Consistent with these data, we found that in the TCGA PAAD dataset a macrophage MGC gene signature was enriched in the squamous PDAC subtype and correlated with poorer overall survival (p = 0.018). Morphometric and immunofluorescence analyses further showed increased 53BP1⁺Ki67⁺ nuclei and nuclear atypia in MGCs, indicating ongoing proliferation despite DNA damage. Together, these data identify MGCs of macrophage origin as an immune cell state shaped by hypoxia and stress signaling, associated with aggressive tumor phenotypes, and potentially exploitable as an immune classifier in PDAC.

Multinucleated giant cells in human pancreatic cancer are a distinct macrophage population undergoing a DNA damage response and associated with an aggressive tumor microenvironment / M. Viatore, R.P.. - In: CANCER IMMUNOLOGY RESEARCH. - ISSN 2326-6066. - (2026), pp. 1-37. [Epub ahead of print] [10.1158/2326-6066.CIR-25-1602]

Multinucleated giant cells in human pancreatic cancer are a distinct macrophage population undergoing a DNA damage response and associated with an aggressive tumor microenvironment

M. Viatore
Co-primo
;
R. Polidori
Co-primo
;
A.R. Putignano
Co-primo
;
M. Barbagallo;M. Erreni;S. Bozzarelli;M. Locati;A. Mantovani
Penultimo
;
F. Marchesi
Ultimo
2026

Abstract

Macrophages constitute a dominant and functionally diverse immune population within the microenvironment of pancreatic ductal adenocarcinoma (PDAC), yet how macrophage heterogeneity contributes to the tumor remains poorly defined. In an institutional cohort of 145 PDAC specimens, we identified a population of multinucleated giant cells (MGCs) of macrophage origin, an entity previously described in chronic inflammation but rarely in cancer. CD68⁺ MGCs were present in 28% of tumors, enriched in squamous, non-glandular regions, and more frequent after neoadjuvant chemotherapy. By integrating spatial transcriptomics and quantitative imaging, we defined the features of these cells, which, compared with MGCs in non-neoplastic inflammatory lesions, lacked canonical polarization markers (HLA-DR, CD163) and displayed a distinctive transcriptional program characterized by upregulation of the POLR2K, TUBA8, COX5B, and VDAC1 genes, which encode proteins involved in DNA repair, oxidative stress, and MYC signaling. Spatial analyses revealed activation of hypoxia and extracellular matrix–remodeling pathways in MGC-associated niches, and experimental hypoxia promoted MGC formation in vitro. Consistent with these data, we found that in the TCGA PAAD dataset a macrophage MGC gene signature was enriched in the squamous PDAC subtype and correlated with poorer overall survival (p = 0.018). Morphometric and immunofluorescence analyses further showed increased 53BP1⁺Ki67⁺ nuclei and nuclear atypia in MGCs, indicating ongoing proliferation despite DNA damage. Together, these data identify MGCs of macrophage origin as an immune cell state shaped by hypoxia and stress signaling, associated with aggressive tumor phenotypes, and potentially exploitable as an immune classifier in PDAC.
Settore MEDS-02/A - Patologia generale
   Assegnazione Dipartimenti di Eccellenza 2023-2027 - Dipartimento di BIOTECNOLOGIE MEDICHE E MEDICINA TRASLAZIONALE
   DECC23_003
   MINISTERO DELL'UNIVERSITA' E DELLA RICERCA
2026
30-giu-2026
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1259411
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