Sara Schad scite author profile

Although the main focus of immuno-oncology has been manipulating the adaptive immune system, harnessing both the innate and adaptive arms of the immune system might produce superior tumour reduction and elimination. Tumour-associated macrophages often have net pro-tumour effects, but their embedded location and their untapped potential provide impetus to discover strategies to turn them against tumours. Strategies that deplete (anti-CSF-1 antibodies and CSF-1R inhibition) or stimulate (agonistic anti-CD40 or inhibitory anti-CD47 antibodies) tumour-associated macrophages have had some success. We hypothesized that pharmacologic modulation of macrophage phenotype could produce an anti-tumour effect. We previously reported that a first-in-class selective class IIa histone deacetylase (HDAC) inhibitor, TMP195, influenced human monocyte responses to the colony-stimulating factors CSF-1 and CSF-2 in vitro. Here, we utilize a macrophage-dependent autochthonous mouse model of breast cancer to demonstrate that in vivo TMP195 treatment alters the tumour microenvironment and reduces tumour burden and pulmonary metastases by modulating macrophage phenotypes. TMP195 induces the recruitment and differentiation of highly phagocytic and stimulatory macrophages within tumours. Furthermore, combining TMP195 with chemotherapy regimens or T-cell checkpoint blockade in this model significantly enhances the durability of tumour reduction. These data introduce class IIa HDAC inhibition as a means to harness the anti-tumour potential of macrophages to enhance cancer therapy.

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Tim-4+ cavity-resident macrophages impair anti-tumor CD8+ T cell immunity

Chow

et al. 2021

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T cell immunotherapies engage neutrophils to eliminate tumor antigen escape variants

Hirschhorn¹,

Budhu²,

Kraehenbuehl³

et al. 2023

Cell

117

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Calreticulin mutant myeloproliferative neoplasms induce MHC-I skewing, which can be overcome by an optimized peptide cancer vaccine

et al. 2022

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The majority of JAK2 V617F -negative myeloproliferative neoplasms (MPNs) have disease-initiating frameshift mutations in calreticulin ( CALR ), resulting in a common carboxyl-terminal mutant fragment (CALR MUT ), representing an attractive source of neoantigens for cancer vaccines. However, studies have shown that CALR MUT -specific T cells are rare in patients with CALR MUT MPN for unknown reasons. We examined class I major histocompatibility complex (MHC-I) allele frequencies in patients with CALR MUT MPN from two independent cohorts. We observed that MHC-I alleles that present CALR MUT neoepitopes with high affinity are underrepresented in patients with CALR MUT MPN. We speculated that this was due to an increased chance of immune-mediated tumor rejection by individuals expressing one of these MHC-I alleles such that the disease never clinically manifested. As a consequence of this MHC-I allele restriction, we reasoned that patients with CALR MUT MPN would not efficiently respond to a CALR MUT fragment cancer vaccine but would when immunized with a modified CALR MUT heteroclitic peptide vaccine approach. We found that heteroclitic CALR MUT peptides specifically designed for the MHC-I alleles of patients with CALR MUT MPN efficiently elicited a CALR MUT cross-reactive CD8 + T cell response in human peripheral blood samples but not to the matched weakly immunogenic CALR MUT native peptides. We corroborated this effect in vivo in mice and observed that C57BL/6J mice can mount a CD8 + T cell response to the CALR MUT fragment upon immunization with a CALR MUT heteroclitic, but not native, peptide. Together, our data emphasize the therapeutic potential of heteroclitic peptide–based cancer vaccines in patients with CALR MUT MPN.

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Sara Schad

Class IIa HDAC inhibition reduces breast tumours and metastases through anti-tumour macrophages

Tim-4+ cavity-resident macrophages impair anti-tumor CD8+ T cell immunity

T cell immunotherapies engage neutrophils to eliminate tumor antigen escape variants

Calreticulin mutant myeloproliferative neoplasms induce MHC-I skewing, which can be overcome by an optimized peptide cancer vaccine

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