Peer-reviewed veterinary case report
New nanobody treatment targets CTLA4 for dog cancer therapy
By Marable, Jonathan et al.·Published in Scientific reports·2021·Department of Pathobiology, United States·View original on PubMed →
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Original publication title: Nanobody-based CTLA4 inhibitors for immune checkpoint blockade therapy of canine cancer patients.
- Species:
- dog
Plain-English summary
A study focused on treating cancer in dogs found a new type of therapy using nanobodies that target a protein called CTLA4, which is involved in immune responses. This approach aims to help the immune system better fight cancer by blocking CTLA4, similar to treatments used in humans. Researchers developed a smaller, engineered antibody that binds specifically to canine CTLA4 and showed promise in activating immune cells from healthy dogs. This innovative treatment could improve outcomes for dogs with cancer by enhancing their immune response.
People also search for: dog cancer treatment options · immune therapy for dogs · CTLA4 inhibitors in dogs · canine cancer immune response · nanobody therapy for dogs
Abstract
Cancer is the leading cause of death in the geriatric dog population. Currently, the use of immune checkpoint inhibitors (ICIs) such as anti-CTLA4 antibodies has markedly improved the prognosis of several cancers in their advanced stages. However, ICIs targeting CTLA4 blockade to treat canine cancer patients are yet to define. In this study, we sought to develop, characterize and assess whether chimeric heavy chain only antibodies (cHcAbs) against CTLA4 are viable therapeutic candidates for the treatment of canine cancers. Anti-CTLA4 nanobodies (Nbs) were identified from a yeast nanobody (Nb) library using magnetic-assisted cell sorting (MACS) and flow cytometry. cHcAbs were engineered by genetically fusing the DNA sequences coding for anti-CTLA4 Nbs with the Fc domain of the subclass B of canine IgG. Recombinant cHcAbs were purified from ExpiCHO-S cells. Stable cell lines expressing canine CTLA4 and FcγRI were used to elucidate the binding ability and specificity of cHcAbs. PBMCs isolated from healthy dogs were used to evaluate the ability of cHcAbs to activate canine PBMCs (cPBMCs). Novel Nbs were identified using the extracellular domain of canine CTLA4 protein to screen a fully synthetic yeast nanobody library. Purified Nbs bind specifically to natïve canine CTLA4. We report that chimeric HcAbs, which were engineered by fusing the anti-CTLA4 Nbs and Fc region of subclass B of canine IgG, were half the size of a conventional mAb and formed dimers. The chimeric HcAbs specifically binds both with canine CTLA4 and Fcγ receptors. As the binding of Nbs overlapped with the MYPPPY motif of canine CTLA4, these Nbs were expected to sterically disrupt the interaction of canine CTLA4 to B-7s. Like their human counterpart, canine CTLA4 was expressed on helper T cells and a small subset of cytotoxic T cells. Canine Tregs also constitutively expressed CTLA4, and stimulation with PMA/Ionomycin dramatically increased expression of CTLA4 on the cell surface. Stimulation of cPBMCs in the presence of agonistic anti-CD3 Ab and cHcAb6 significantly increased the expression of IFN-γ as compared to the isotype control. This study identifies a novel nanobody-based CTLA4 inhibitor for the treatment of canine cancer patients.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/34675296/