RESUMO
Immunotherapy, as an emerging treatment method, has been proven to improve the prognosis of patients with relapsed/refractory B-cell acute lymphoblastic leukemia (B-ALL) and has good application prospects. Immunotherapy, including chimeric antigen receptor T cell immunotherapy (CAR-T) and monoclonal antibodies, has shown great potential for application, and has been approved for marketing. This article summarizes the application of the above two therapies in the treatment of relapsed/ refractory B-ALL, and concludes that CAR-T is a kind of personalized immunotherapy, and the selection of ideal targets is an important part of its action. Currently, the ideal targets in clinical studies include CD19, CD22 and CD19/CD22. Monoclonal antibodies, including blinatumomab and inotuzumab ozogamicin, have shown superior therapeutic efficacy for relapsed/refractory B- ALL. Immunotherapy has shown superior therapeutic effects compared to conventional chemotherapy, expanding the selection of treatment options for relapsed/refractory B-ALL.
RESUMO
Resumen Una de las herramientas más novedosas en inmunoterapias adoptivas contra leucemias y tumores malignos es el uso del receptor de antígeno quimérico "CAR". El receptor CAR ha sido ampliamente utilizada en células T (células CAR-T) potenciando su eficacia en el reconocimiento y eliminación de tumores, obteniéndose a la fecha terapias basadas en esta tecnología. No obstante, las células CAR-T llegan a repercutir negativamente en la salud del paciente, presentando el síndrome neurológico de efecto inmune asociado a células (ICANS) y el síndrome de lanzamiento de citocinas (SLC). Como consecuencia, el paciente necesita ser hospitalizado durante la terapia. Además, el coste de manufactura y terapia es elevado, siendo una tecnología limitada a un sector muy bajo de la población. En este trabajo, mencionamos el empleo de una terapia emergente de células asesinas naturales (NK) con el receptor CAR (CAR-NK), que cuentan con muchas ventajas por encima de las células CAR-T. Las células CAR-NK conservan su capacidad citotóxica en contra de tumores gracias a su acción dependiente de receptores activadores e inhibidores, por lo que el receptor CAR, solo estimula sus habilidades y persistencia. Sumado a esto, el coste de una terapia de células CAR-NK podría resultar redituable debido a la capacidad de las células CAR-NK de eliminar múltiples células tumorales sin generar daño colateral en el paciente. Aquí analizamos las características de los múltiples receptores CAR y los fenotipos de células NK que han sido utilizados durante múltiples ensayos (NK-92, células NK de sangre cordal y periférica, y células NK iPSC).
Abstract One of the novel and effective devices against leukemia and solid tumors in adoptive immunotherapies is the use of the chimeric antigen receptor "CAR". CAR technology has been widely used in T-cells (CAR-T cells) empowering its efficacy on the identification and elimination of tumor cells, getting today certain drugs based on this technology. Nevertheless, CAR-T cells can have a negative impact on patient health, causing in many cases immune effector cell-associated neurotoxicity syndrome (ICANS) and cytokine release syndrome (CRS). As a consequence, the patient will have to be hospitalized for the duration of therapy. Moreover, the cost of manufacture and therapy is quite expensive, limiting its use to a low range of people. On the other hand, we analyze the advantages of Natural Killer cells with the CAR receptor (CAR-NK), which have many plusses over CAR-T cells. CAR-NK cells retain their cytotoxic abilities against tumor cells due their activator/ inhibitor receptors balance. Thus, the CAR receptor technology just increases their skills and persistence. Furthermore, CAR-NK therapy could be more profitable since CAR-NK can eliminate multiple tumor cells without generating collateral damage on patient health. Here, we discuss the characteristics of the multiples CAR receptors in general and the NK types cells that have been used in trials demonstrating their viable emerging therapy (NK-92, cord and peripheral blood NK cells, and iPSC-derived NK cells).
Assuntos
Humanos , Leucemia , Terapêutica , Imunoterapia Adotiva , Síndrome da Liberação de CitocinaRESUMO
CAR-T technology as a kind of immunotherapy, from the earliest generation of the first to the current fourth generation, its cytotoxic, anti-tumor immune effect greatly enhanced, but also challenged by safety issues.It shows a certain advantage in the therapy of Hepatocellular carcinoma. It indicates that the era of precise individual-ized liver cancer treatment, immune therapy, especially CAR-T technology combined with surgery, radiotherapy and chemotherapy, local treatment and other comprehensive treatment will play a more powerful role.