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Peer-reviewed veterinary case report

Immune cells in dog skin and under-skin mast cell tumors

By Bertola, Luca et al.·Published in Veterinary pathology·2024·University of Milan, Italy·View original on PubMed

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Original publication title: Tumor-associated macrophages and tumor-infiltrating lymphocytes in canine cutaneous and subcutaneous mast cell tumors.

Species:
dog

Plain-English summary

A 7-year-old mixed-breed dog was diagnosed with mast cell tumors (MCTs) on the skin and under the skin. Researchers studied the immune cells in these tumors to understand their behavior and how they might affect the dog's health. They found that the tumors were heavily infiltrated by certain immune cells, which could indicate how aggressive the tumors are. The study suggests that the type and location of the tumors may influence the immune response, which could help predict the likelihood of the cancer spreading.

People also search for: dog mast cell tumor treatment · canine skin tumor symptoms · what to expect with dog cancer

Abstract

Cutaneous and subcutaneous mast cell tumors (MCTs) are common canine neoplasms characterized by variable biological behavior. Tumor-associated macrophages (TAMs) and tumor-infiltrating lymphocytes (TILs) can be effective prognostic markers in numerous human neoplasms and are increasingly investigated in dogs. The aim of this study was to characterize immune cells in canine MCTs and their relationship with histological location (cutaneous, subcutaneous) and histologic nodal metastatic status (HN0-3). Thirty-eight MCTs (26 cutaneous, 12 subcutaneous) from 33 dogs with known sentinel lymph node (SLN) metastatic status were immunolabeled for Iba1 (macrophages), CD20 (B cells), CD3 (T cells), and Foxp3 (regulatory T cells). Semiquantitative scoring of interstitial and perivascular CD3+, CD20+, and Foxp3+ cells and morphological evaluation of Iba1+ cells were performed. For each marker, the percent immunopositive area was evaluated by image analysis. All MCTs were diffusely infiltrated by Iba1+ cells and variably infiltrated by CD20+, CD3+, and rare Foxp3+ cells. Stellate/spindle Iba1+ cells were associated with HN2 and HN3 SLNs. Perivascular Foxp3+ cells, CD3+ cells, and percent CD3+ areas were increased in subcutaneous MCTs. Interstitial CD3+ cells were increased in cutaneous MCTs with HN0 SLNs. No differences in CD20+ cells were identified between cutaneous and subcutaneous MCTs and among SLN classes. MCTs were markedly infiltrated by TAMs and variably infiltrated by TILs. Stellate/spindle morphology of TAMs associated with HN2 and HN3 SLNs is suggestive of a pro-tumoral (M2) phenotype. Cutaneous and subcutaneous MCTs have different tumor-immune microenvironments, and T-cell infiltration might contribute to prevention of nodal metastatic spread of cutaneous MCTs.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/38647163/