Matteo Menotti scite author profile

Summary Fibroblasts display extensive transcriptional heterogeneity, yet functional annotation and characterization of their heterocellular relationships remains incomplete. Using mass cytometry, we chart the stromal composition of 18 murine tissues and 5 spontaneous tumor models, with an emphasis on mesenchymal phenotypes. This analysis reveals extensive stromal heterogeneity across tissues and tumors, and identifies coordinated relationships between mesenchymal and immune cell subsets in pancreatic ductal adenocarcinoma. Expression of CD105 demarks two stable and functionally distinct pancreatic fibroblast lineages, which are also identified in murine and human healthy tissues and tumors. Whereas CD105-positive pancreatic fibroblasts are permissive for tumor growth in vivo , CD105-negative fibroblasts are highly tumor suppressive. This restrictive effect is entirely dependent on functional adaptive immunity. Collectively, these results reveal two functionally distinct pancreatic fibroblast lineages and highlight the importance of mesenchymal and immune cell interactions in restricting tumor growth.

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Wiskott–Aldrich syndrome protein (WASP) is a tumor suppressor in T cell lymphoma

Menotti

Ambrogio

Cheong

et al. 2018

Nat Med

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In T lymphocytes WASP and WIP regulate TCR signaling but their role in lymphoma is largely unknown. Here we show that the expression of WASP and WIP is frequently low or absent in anaplastic large cell lymphoma (ALCL) compared to other T cell lymphomas. In ALK+ ALCL, WASP and WIP expression is regulated by ALK oncogenic activity via its downstream mediators STAT3 and C/EBP-β. ALK+ lymphomas were accelerated in WASP- and WIP-deficient mice. In the absence of WASP, active GTP-bound CDC42 was increased and the genetic deletion of one CDC42 allele was sufficient to impair lymphoma growth. WASP-deficient lymphoma showed increased MAPK pathway activation that could be exploited as a therapeutic vulnerability. Our findings demonstrate that WASP and WIP are tumor suppressors in T cell lymphoma and suggest that MEK inhibitors combined with ALK inhibitors could achieve a more potent therapeutic effect in ALK+ ALCL.

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Excess of NPM-ALK oncogenic signaling promotes cellular apoptosis and drug dependency

et al. 2015

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Most of Anaplastic Large Cell Lymphoma (ALCL) cases carry the t(2;5; p23;q35) that produces the fusion protein NPM-ALK. NPM-ALK deregulated kinase activity drives several pathways that support malignant transformation of lymphoma cells. We found that in ALK-rearranged ALCL cell lines NPM-ALK was distributed in equal amounts between the cytoplasm and the nucleus. Only the cytoplasmic portion was catalytically active in both cell lines and primary ALCL, whereas the nuclear portion was inactive due to heterodimerization with NPM1. Thus, about 50% of the NPM-ALK is not active and sequestered as NPM-ALK/NPM1 heterodimers in the nucleus. Overexpression or re-localization of NPM-ALK to the cytoplasm by NPM genetic knock-out or knock-down caused ERK1/2 increased phosphorylation and cell death through the engagement of an ATM/Chk2 and γH2AX mediated DNA damage response. Remarkably, human NPM-ALK amplified cell lines resistant to ALK tyrosine kinase inhibitors (TKIs) underwent apoptosis upon drug withdrawal as a consequence of ERK1/2 hyperactivation. Altogether, these findings indicate that an excess of NPM-ALK activation and signaling induces apoptosis via oncogenic stress responses. A “drug holiday” where the ALK TKI treatment is suspended could represent a therapeutic option in cells that become resistant by NPM-ALK amplification.

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Matteo Menotti

Single-cell analysis defines a pancreatic fibroblast lineage that supports anti-tumor immunity

Wiskott–Aldrich syndrome protein (WASP) is a tumor suppressor in T cell lymphoma

Excess of NPM-ALK oncogenic signaling promotes cellular apoptosis and drug dependency

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