PURPOSE OF REVIEW: The thymus provides a unique and essential microenvironment for T-cell precursors to develop into mature functionally competent T lymphocytes. Ageing causes architectural changes in the thymus resulting in a loss of thymic epithelial space required for thymopoiesis - a process known as thymic involution. Additionally, cytoablative regimens used to treat malignancies also destroy thymic architecture. The net result of both processes is diminished thymic output and function that may lead to impaired immunity. Thus, immunocompromised individuals would benefit from strategies aimed at enhancing T-cell reconstitution. RECENT FINDINGS: Here we discuss strategies such as the use of sex steroid ablation, keratinocyte growth factor, interleukin-7, and in-vitro-generated progenitor T cells as candidates for restoring T-cell immunity. Using various animal models of ageing or hematopoietic stem cell transplantation, these strategies have been shown to restore thymic architecture and cellularity, resulting in increased output and T-cell function in the periphery. SUMMARY: These candidate approaches are currently being tested in clinical trials, with preliminary evidence showing encouraging effects on T-cell reconstitution. Nevertheless, although these strategies show clear promise in animal models, and in early human trials, further data are needed to determine their efficacy in patients.
PURPOSE OF REVIEW: The thymus provides a unique and essential microenvironment for T-cell precursors to develop into mature functionally competent T lymphocytes. Ageing causes architectural changes in the thymus resulting in a loss of thymic epithelial space required for thymopoiesis - a process known as thymic involution. Additionally, cytoablative regimens used to treat malignancies also destroy thymic architecture. The net result of both processes is diminished thymic output and function that may lead to impaired immunity. Thus, immunocompromised individuals would benefit from strategies aimed at enhancing T-cell reconstitution. RECENT FINDINGS: Here we discuss strategies such as the use of sex steroid ablation, keratinocyte growth factor, interleukin-7, and in-vitro-generated progenitor T cells as candidates for restoring T-cell immunity. Using various animal models of ageing or hematopoietic stem cell transplantation, these strategies have been shown to restore thymic architecture and cellularity, resulting in increased output and T-cell function in the periphery. SUMMARY: These candidate approaches are currently being tested in clinical trials, with preliminary evidence showing encouraging effects on T-cell reconstitution. Nevertheless, although these strategies show clear promise in animal models, and in early human trials, further data are needed to determine their efficacy in patients.
Authors: Jastaranpreet Singh; Edward L Y Chen; Yan Xing; Heather E Stefanski; Bruce R Blazar; Juan Carlos Zúñiga-Pflücker Journal: Blood Adv Date: 2019-10-22
Authors: Alison M Farley; Lucy X Morris; Eric Vroegindeweij; Marianne L G Depreter; Harsh Vaidya; Frances H Stenhouse; Simon R Tomlinson; Richard A Anderson; Tom Cupedo; Jan J Cornelissen; C Clare Blackburn Journal: Development Date: 2013-05 Impact factor: 6.868
Authors: Sieberth Nascimento-Brito; Jean Paulo Zukurov; Juliana T Maricato; Angela C Volpini; Anna Christina M Salim; Flávio M G Araújo; Roney S Coimbra; Guilherme C Oliveira; Fernando Antoneli; Luiz Mário R Janini Journal: PLoS One Date: 2015-09-28 Impact factor: 3.240