Peer-reviewed veterinary case report
Regulatory T Cells and Their Role in Animal Disease.
- Journal:
- Veterinary pathology
- Year:
- 2016
- Authors:
- Veiga-Parga, T
- Affiliation:
- University of Tennessee · United States
Plain-English summary
This review looks at a type of immune cell called regulatory T cells, which help control how the immune system responds to diseases in animals. While most research has focused on humans and mice, there is growing interest in understanding these cells in other animals, including pets. The review explains how these cells can both help and hinder the immune response, depending on the situation, and discusses their potential role in various health issues like cancer and infections. Although there is still a lot to learn about regulatory T cells in domestic animals, researchers are exploring ways to use them in future treatments. Overall, the findings suggest that while these cells are important for managing immune responses, their behavior can change in different disease environments.
Abstract
In humans and mouse models, Foxp3(+) regulatory T cells are known to control all aspects of immune responses. However, only limited information exists on these cells' role in diseases of other animals. In this review, we cover the most important features and different types of regulatory T cells, which include those that are thymus-derived and peripherally induced, the mechanisms by which they control immune responses by targeting effector T cells and antigen-presenting cells, and most important, their role in animal health and diseases including cancer, infections, and other conditions such as hypersensitivities and autoimmunity. Although the literature regarding regulatory T cells in domestic animal species is still limited, multiple articles have recently emerged and are discussed. Moreover, we also discuss the evidence suggesting that regulatory T cells might limit the magnitude of effector responses, which can have either a positive or negative result, depending on the context of animal and human disease. In addition, the issue of plasticity is discussed because plasticity in regulatory T cells can result in the loss of their protective function in some microenvironments during disease. Lastly, the manipulation of regulatory T cells is discussed in assessing the possibility of their use as a treatment in the future.
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Search related cases →Original publication: https://pubmed.ncbi.nlm.nih.gov/26945003/