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Immunotherapy with adoptive cytomegalovirus‐specific T cells transfer: Summarizing latest gene engineering techniques

Mahshid Mehdizadeh, Samira Karami, Haniyeh Ghaffari‐Nazari, Ghazaleh Sankanian, Mohsen Hamidpour, Abbas Hajifathali

2021Health Science Reports15 citationsDOIOpen Access PDF

Abstract

Cytomegalovirus (CMV) infection remains a major complication following allogeneic hematopoietic stem cell transplantation (HSCT). T cell response plays a critical role in inducing long-term immunity against CMV infection/reactivation that impairs during HSCT. Adoptive T cell therapy (ACT) via transferring CMV-specific T cells from a seropositive donor to the recipient can accelerate virus-specific immune reconstitution. ACT, as an alternative approach, can restore protective antiviral T cell immunity in patients. Different manufacturing protocols have been introduced to isolate and expand specific T cells for the ACT clinical setting. Nevertheless, HLA restriction, long-term manufacturing process, risk of alloreactivity, and CMV seropositive donor availability have limited ACT broad applicability. Genetic engineering has developed new strategies to produce TCR-modified T cells for diagnosis, prevention, and treatment of infectious disease. In this review, we presented current strategies required for ACT in posttransplant CMV infection. We also introduced novel gene-modified T cell discoveries in the context of ACT for CMV infection. It seems that these innovations are enabling to improvement and development of ACT utilization to combat posttransplant CMV infection.

Topics & Concepts

ImmunologyCytomegalovirusAdoptive cell transferContext (archaeology)Genetic enhancementT cellTransplantationHematopoietic stem cell transplantationImmune systemImmunityImmunotherapyMedicineBiologyVirologyVirusGeneHerpesviridaeViral diseaseGeneticsPaleontologySurgeryCytomegalovirus and herpesvirus researchCAR-T cell therapy researchVirus-based gene therapy research
Immunotherapy with adoptive cytomegalovirus‐specific T cells transfer: Summarizing latest gene engineering techniques | Litcius