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Peer-reviewed veterinary case report

Fibroblast activation protein and fibronectin in canine cancer tumors

By Dell'Aere, Silvia et al.·Published in Frontiers in veterinary science·2025·Department of Veterinary Medicine and Animal Sciences-DIVAS, Italy·View original on PubMed

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Original publication title: Expression patterns of fibroblast activation protein and extra-domain B fibronectin in canine malignant tumors.

Species:
dog

Plain-English summary

A study looked at 88 tumors from dogs, including types like soft tissue sarcomas and mast cell tumors, to see how certain proteins related to cancer were expressed. They found that a protein called fibroblast activation protein (FAP) was present in most tumors, especially in apocrine gland anal sac adenocarcinomas, soft tissue sarcomas, and mast cell tumors. Another protein, extra-domain B fibronectin (EDB+FN), was mostly found in melanoma tumors. The researchers suggest that targeting these proteins could be a potential treatment strategy for dogs with these types of cancer.

People also search for: dog cancer treatment options · mast cell tumor in dogs · melanoma in dogs treatment

Abstract

INTRODUCTION: Fibroblast activation protein (FAP) is involved in the extracellular matrix (ECM) remodeling and wound healing. Absent in most adult tissues, it is overexpressed by neoplastic cells and/or cancer-associated fibroblasts (CAFs) in several human malignancies. The extra Domain-B of fibronectin (EDB+FN) is a splice variant of fibronectin involved in angiogenesis and tissue remodeling, overexpressed by CAFs and cancer-associated vessels (CAVs) in many aggressive human tumors. This study aims to investigate FAP and EDB+FN expressions in canine tumors and assess their potential as druggable targets in animal patients. METHODS: FAP and EDB+FN expression was assessed by immunohistochemistry on 88 canine tumors, including Soft Tissue Sarcomas [STS], Osteosarcomas [OSA], Hemangiosarcomas [HSA], Apocrine Gland Anal Sac Adenocarcinomas [AGASAC], Mast Cell Tumors [MCT], Lymphomas, and Melanomas, using polyclonal and monoclonal anti-FAP and the L19 anti-EDB antibodies. Expression distribution and intensity were semi-quantitatively scored in neoplastic cells, CAFs, CAVs, and stroma. RESULTS: FAP was variably expressed in neoplastic cells (79/88), CAFs (79/88), and CAVs (82/88) across all tumor types, but mostly in AGASACs, STSs, and MCTs. The monoclonal antibody presented greater specificity. EDB+FN expression was less present across tumor types, mostly with a vascular staining pattern. Labelling was most intense and consistent in the neoplastic cells, CAFs, and CAVs of melanomas, and to a lesser extent in AGASAC and STS. DISCUSSION: STS, AGASAC, and MCT could be candidates for FAP-targeted strategies; melanomas are the most promising for EDB+FN-directed therapies. These results support FAP and EDB+FN as targets worth investigating for clinical applications in animal patients.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/41705117/