Dual T cell receptor/chimeric antigen receptor engineered NK-92 cells targeting the HPV16 E6 oncoprotein and the tumor-associated antigen L1CAM exhibit enhanced cytotoxicity and specificity against tumor cells.

The human papillomavirus type 16 (HPV16) causes a large fraction of genital and oropharyngeal carcinomas. To maintain the transformed state, the tumor cells must continuously synthesize the E6 and E7 viral oncoproteins, which makes them tumor-specific antigens. Indeed, specific T cell responses against them have been well documented and CD8+ T cells engineered to express T cell receptors (TCRs) that recognize epitopes of E6 or E7 have been tested in clinical studies with promising results, yet with limited clinical success. Using CD8+ T cells from peripheral blood of healthy donors, we have identified two novel TCRs reactive to an unexplored E618-26 epitope. These TCRs showed limited standalone cytotoxicity against E618-26-HLA-A*02:01-presenting tumor cells. However, a single-signaling domain chimeric antigen receptor (ssdCAR) targeting L1CAM, a cell adhesion protein frequently overexpressed in HPV16-induced cancer, prompted a synergistic effect that significantly enhanced the cytotoxic capacity of NK-92/CD3/CD8 cells armored with both TCR and ssdCAR when both receptors simultaneously engaged their respective targets, as shown by live microscopy of 2-D and 3-D co-cultures. Thus, virus-specific TCRs from the CD8+ T cell repertoire of healthy donors can be combined with a suitable ssdCAR to enhance the cytotoxic capacity of the effector cells and, indirectly, their specificity.

A costimulatory chimeric antigen receptor targeting TROP2 enhances the cytotoxicity of NK cells expressing a T cell receptor reactive to human papillomavirus type 16 E7.

Immune cells modified to express a tumor-reactive T cell receptor (TCR) have shown limited efficacy as stand-alone therapy against solid tumors. Genital and oropharyngeal carcinomas induced by human papillomavirus (HPV) type 16 express constitutively its E6 and E7 oncoproteins, which makes them convenient targets for adoptive cell immunotherapy. However, viral antigen presentation by tumor cells is low and limits the anti-tumor efficacy of CD8+ T cells. To enhance the functionality of immune effector cells, we have devised a strategy combining a costimulatory chimeric antigen receptor (CAR) with a TCR. We used a clinically tested TCR specific to E7 (E7-TCR) of HPV16 and a newly constructed CAR targeting the trophoblast cell surface antigen 2 (TROP2), which carried the intracellular costimulatory domains CD28 and 4-1BB, but was devoid of the CD3ζ domain. Flow cytometry analyses showed a notable upregulation of activation markers and of cytolytic molecule release by NK-92 cells genetically engineered to express CD3, CD8 and both E7-TCR and TROP2-CAR, after co-incubation with HPV16+ cervical cancer cells. Furthermore, the E7-TCR/TROP2-CAR NK-92 cells demonstrated enhanced antigen-specific activation and augmented cytotoxicity against tumor cells compared with NK-92 cells expressing the E7-TCR alone. A costimulatory TROP2-CAR can synergistically cooperate with the E7-TCR in NK cells thereby enhancing their signaling strength and antigen-specific cytotoxicity. This approach might improve the outcome of adoptive cell immunotherapies for HPV16+ cancer patients that are currently under investigation.

Generation of CAR-T cells using lentiviral vectors.

Cancer immunotherapy is nowadays largely focused on the development of therapeutic antibodies and chimeric antigen receptors (CARs). Two CARs targeting CD19 have been approved recently for the treatment of some hematological malignancies. This demonstrates the capability of engineered CAR T cells in generating effective tumor responses. Furthermore, several hundred ongoing clinical trials are exploring the feasibility of CAR-based approaches to target tumor-associated antigens in solid tumors. However, there still remain significant challenges and limitations in the design and production of CAR-modified T cells that need to be addressed, such as more effective transduction methods, expression and exhaustion issues, reliable in vitro and in vivo characterization methods, etc. Here we describe current techniques for generating CAR T cells using lentiviral vectors as well as detailed protocols for their functional characterization.

Immunogenic T cell epitopes of SARS-CoV-2 are recognized by circulating memory and naïve CD8 T cells of unexposed individuals.

BACKGROUND: Recent studies have provided evidence of T cell reactivity to Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) in significant numbers of non-infected individuals, which has been attributed to cross-reactive CD4 memory T cells from previous exposure to seasonal coronaviruses. Less evidence of cross-reactive memory CD8 T cells has been documented to date. METHODS: We used the NetCTLPan neural network of the Epitope Database and Analysis Resource to select a series of 27 HLA-A*02:01 epitopes derived from the proteome of SARS-CoV-2. Their binding capacity was assessed by a HLA-A*02:01 stabilization assay and by quantifying their binding to HLA-A*02:01 monomers for the generation of tetramers. Their ability to stimulate and induce expansion of SARS-CoV-2 reactive CD8 T cells was measured by flow cytometry. The TCR repertoire of COVID convalescent and healthy unexposed donors was analysed using the MIRA database. FINDINGS: The HLA-A*02:01 epitopes tested were able to stabilise HLA molecules and induce activation of CD8 T cells of healthy unexposed donors. Our results, based on specific tetramer binding, provide evidence supporting the presence of frequent cross-reactive CD8 T cells to SARS-CoV-2 antigens in non-exposed individuals. Interestingly, the reactive cells were distributed into naïve, memory and effector subsets. INTERPRETATION: Our data are consistent with a significant proportion of the reactive CD8 T clones belonging to the public shared repertoire, readily available in absence of previous contact with closely related coronaviruses. Furthermore, we demonstrate the immunogenic capacity of long peptides carrying T cell epitopes, which can serve to isolate virus-specific T cell receptors among the ample repertoire of healthy unexposed subjects and could have application in COVID-19 immunotherapy. Limitations of our study are that it concentrated on one MHC I allele (HLA-A*02:01) and the low numbers of samples and epitopes tested. FUNDING: See the Acknowledgements section.

Perturbation-Based Modeling Unveils the Autophagic Modulation of Chemosensitivity and Immunogenicity in Breast Cancer Cells.

In the absence of new therapeutic strategies, chemotherapeutic drugs are the most widely used strategy against metastatic breast cancer, in spite of eliciting multiple adverse effects and having low responses with an average 5-year patient survival rate. Among the new therapeutic targets that are currently in clinical trials, here, we addressed the association between the regulation of the metabolic process of autophagy and the exposure of damage-associated molecular patterns associated (DAMPs) to immunogenic cell death (ICD), which has not been previously studied. After validating an mCHR-GFP tandem LC3 sensor capacity to report dynamic changes of the autophagic metabolic flux in response to external stimuli and demonstrating that both basal autophagy levels and response to diverse autophagy regulators fluctuate among different cell lines, we explored the interaction between autophagy modulators and chemotherapeutic agents in regards of cytotoxicity and ICD using three different breast cancer cell lines. Since these interactions are very complex and variable throughout different cell lines, we designed a perturbation-based model in which we propose specific modes of action of chemotherapeutic agents on the autophagic flux and the corresponding strategies of modulation to enhance the response to chemotherapy. Our results point towards a promising therapeutic potential of the metabolic regulation of autophagy to overcome chemotherapy resistance by eliciting ICD.

Frecuencias de grupos sanguíneos de interés clínico en donantes y pacientes de Costa Rica / The frequency of blood groups of interest in donors and patients from Costa Rica

Introducción: Los sistemas sanguíneos ABO, Rh y Kell son lo más relevantes desde el punto de vista clínico por su inmunogenicidad y ser los principales causantes de reacciones hemolíticas. Objetivo: Determinar las frecuencias de los grupos sanguíneos ABO y Rh, y la frecuencia del antígeno Kell en pacientes y donantes de Costa Rica. Métodos: Durante el periodo de 2009 al 2018 se obtuvo de las bases de datos de los bancos de sangre de tres hospitales de adultos de Costa Rica, las frecuencias de los grupos sanguíneos ABO, Rh y Kell en muestras de donantes y pacientes. Para contrastar las frecuencias de cada grupo sanguíneo se realizó una prueba de independencia de variables Chi cuadrado, con el 95 por ciento de confianza. Los datos se analizaron con el paquete estadístico SPSS versión 23. Resultados: Las frecuencias de los grupos ABO en las muestras de donantes y pacientes mostraron diferencias pequeñas pero significativas. La frecuencia del fenotipo Rh D negativo fue más alta en pacientes (8,0 por ciento) que en donantes (6,1 por ciento). Se estimaron las frecuencias de los antígenos C (67,8 por ciento), c (80,5 por ciento), E (41,4 por ciento), e (94,4 por ciento) y K (3,1 por ciento) a partir de las muestras de los donantes. Conclusiones: Las estrategias de reclutamiento de donantes de sangre aumentan la frecuencia del fenotipo Rh negativo en donantes con respecto a los pacientes. Las estadísticas recopiladas demuestran un aumento en la frecuencia del grupo O en comparación con los últimos estudios relacionados. Finalmente, los otros antígenos presentaron pocas variaciones en comparación a estudios previos(AU)

Introduction: The ABO, Rh and Kell blood systems are the most relevant from the clinical point of view, due to their immunogenicity and because they are the main causes of hemolytic reactions. Objective: To determine the frequencies of ABO and Rh blood groups, and the frequency of the Kell antigen in patients and donors from Costa Rica. Methods: During the period from 2009 to 2018, the frequencies of ABO, Rh and Kell blood groups in donor and patient samples were obtained from the blood bank databases of three adult hospitals in Costa Rica. To contrast the frequencies of each blood group, a chi-square test of independence of variables was performed, with 95 percent confidence interval. The data were analyzed with the statistical package SPSS version 23. Results: The frequencies of ABO groups in donor and patient samples showed small but significant differences. The frequency of the negative Rh D phenotype was higher in patients (8.0 percent) than in donors (6.1 percent). The frequencies of the antigens C (67.8 percent), c (80.5 percent), E (41.4 percent), e (94.4 percent), and K (3.1 percent) were estimated from donor samples. Conclusions: Blood donor recruitment strategies increase the frequency of negative Rh phenotype in donors compared to patients. The statistics collected demonstrate an increase in the frequency of the O group compared to recent related studies. Finally, the other antigens did not show as much variation compared to previous studies(AU)