Domain-based mRNA vaccines encoding spike protein N-terminal and receptor binding domains confer protection against SARS-CoV-2.

With the success of messenger RNA (mRNA) vaccines against coronavirus disease 2019, strategies can now focus on improving vaccine potency, breadth, and stability. We designed and evaluated domain-based mRNA vaccines encoding the wild-type spike protein receptor binding domain (RBD) or N-terminal domain (NTD) alone or in combination. An NTD-RBD-linked candidate vaccine, mRNA-1283, showed improved antigen expression, antibody responses, and stability at refrigerated temperatures (2° to 8°C) compared with the clinically available mRNA-1273, which encodes the full-length spike protein. In BALB/c mice administered mRNA-1283 as a primary series, booster, or variant-specific booster, similar or greater immune responses from viral challenge were observed against wild-type, beta, delta, or omicron (BA.1) viruses compared with mRNA-1273-immunized mice, especially at lower vaccine dosages. K18-hACE2 mice immunized with mRNA-1283 or mRNA-1273 as a primary series demonstrated similar degrees of protection from challenge with SARS-CoV-2 Delta and Omicron variants at all vaccine dosages. These results support clinical assessment of mRNA-1283, which has now entered clinical trials (NCT05137236).

Development of SARS-CoV-2 mRNA vaccines encoding spike N-terminal and receptor binding domains.

With the success of mRNA vaccines against coronavirus disease 2019 (COVID-19), strategies can now focus on improving vaccine potency, breadth, and stability. We present the design and preclinical evaluation of domain-based mRNA vaccines encoding the wild-type spike-protein receptor-binding (RBD) and/or N-terminal domains (NTD). An NTD-RBD linked candidate vaccine, mRNA-1283, showed improved antigen expression, antibody responses, and stability at refrigerated temperatures (2-8°C) compared with the clinically available mRNA-1273, which encodes the full-length spike protein. In mice administered mRNA-1283 as a primary series, booster, or variant-specific booster, similar or greater immune responses and protection from viral challenge were observed against wild-type, beta, delta, or omicron (BA. 1) compared with mRNA-1273 immunized mice, especially at lower vaccine dosages. These results support clinical assessment of mRNA-1283 ( NCT05137236 ). One Sentence Summary: A domain-based mRNA vaccine, mRNA-1283, is immunogenic and protective against SARS-CoV-2 and emerging variants in mice.

Characterization of a new oda3 allele, oda3-6, defective in assembly of the outer dynein arm-docking complex in Chlamydomonas reinhardtii.

We have used an insertional mutagenesis approach to generate new C. reinhardtii motility mutants. Of 56 mutants isolated, one is a new allele at the ODA3 locus, called oda3-6. Similar to the previously characterized oda3 alleles, oda3-6 has a slow-jerky swimming phenotype and reduced swimming speed. The oda3-6 mutant fails to assemble the outer dynein arm motor and outer dynein arm-docking complex (ODA-DC) in the ciliary axoneme due to an insertion in the 5' end of the DCC1 gene, which encodes the DC1 subunit of the ODA-DC. Transformation of oda3-6 with the wild-type DCC1 gene rescues the mutant swimming phenotype and restores assembly of the ODA-DC and the outer dynein arm in the cilium. This is the first oda3 mutant to be characterized at the molecular level and is likely to be very useful for further analysis of DC1 function.

Identification of Nef-HIV-1 domains involved in p22-phox interaction and superoxide production.

Nef -HIV-1 has been shown to be involved in NADPH complex interaction and superoxide production. The aim of this work was to study the domains involved in the interaction between Nef and p22-phox. Two approaches were used: 1) in silico modelling, to determine the potential binding motifs and design Nef truncated forms and 2) functional assays. The results showed that GFPVT 68-72, FPDW 121-124 and REVLE 179-183 on Nef are critical for p22-phox (RPQIG 142-146 and PGGP 181-184) docking. However, only the region containing FPDW 121-124 on Nef is able to induce superoxide production. Understanding the molecular mechanisms involved in generating oxidative stress during HIV infection, is critical for therapeutic intervention, in order to minimize viral replication and dissemination.

Fas and FasL expression in leukocytes from chronic granulomatous disease patients.

Abstract. Chronic Granulomatous Disease (CGD) is a primary immunodeficiency characterized by defects in superoxide (O2-) production, which result from mutations in one of the four NADPH oxidase components, predisposing to bacterial and fungal infections. Besides the O2-defect, it has been described that neutrophils from CGD patients are resistant to cell death, a phenomenon that has been connected to chronic inflammation and predisposition to autoimmune diseases. A diminished expression of Fas and its counterpart FasL, molecules known to play a major role in cell death, has been described in lymphocytes depleted of O2-reactive oxygen species (ROS), suggesting an involvement of ROS in Fas/FasL expression. In this work, Fas and FasL expressions were analyzed in T cells and neutrophils from two CGD families, previously known to harbor two different molecular defects: absence of either p47-phox or p67-phox. We found that T lymphocytes from CGD patients express low levels of Fas and FasL, while a diminished FasL expression was observed on neutrophils from a CGD A470 patient. These defects may contribute to understand altered cell death in CGD patients.

Fas and FasL expression in leukocytes from Chronic Granulomatous Disease patients / Expresión de Fas y FasL en leucocitos de pacientes con Enfermedad Granulomatosa Crónica

Chronic Granulomatous Disease (CGD) is a primary immunodeficiency characterized by defects in superoxide (O2-) production, which result from mutations in one of the four NADPH oxidase components, predisposing to bacterial and fungal infections. Besides the O2-defect, it has been described that neutrophils from CGD patients are resistant to cell death, a phenomenon that has been connected to chronic inflammation and predisposition to autoimmune diseases. A diminished expression of Fas and its counterpart FasL, molecules known to play a major role in cell death, has been described in lymphocytes depleted of O2-reactive oxygen species (ROS), suggesting an involvement of ROS in Fas/FasL expression. In this work, Fas and FasL expressions were analyzed in T cells and neutrophils from two CGD families, previously known to harbor two different molecular defects: absence of either p47-phox or p67-phox. We found that T lymphocytes from CGD patients express low levels of Fas and FasL, while a diminished FasL expression was observed on neutrophils from a CGD A470 patient. These defects may contribute to understand altered cell death in CGD patients.

La Enfermedad Granulomatosa Crónica (EGC) es una inmunodeficiencia primaria caracterizada por un defecto en la producción de superóxido (O2-), que se genera como consecuencia de mutaciones en uno de los cuatro componentes del complejo NADPH oxidasa y predispone a infecciones por bacterias y hongos. Además de los defectos en la producción de O2-, se ha descrito que los neutrófilos de los pacientes con EGC exhiben una resistencia a la muerte celular, evento que se asocia con la inflamación crónica y predisposición a enfermedades autoinmunes. Se ha descrito que linfocitos en medios desprovistos de O2-especies reactivas del oxigeno (ROS), muestran reducida expresión de Fas y FasL, moléculas que juegan un papel relevante en el control de la muerte celular, sugiriendo la participación de los ROS su regulación. En este trabajo analizamos la expresión de Fas y FasL en linfocitos T y neutrófilos en dos familias portadores de dos defectos genéticos diferentes asociados con EGC: ausencia de p47-phox o de p67-phox. Evidenciamos una baja expresión de Fas y FasL en los linfocitos T de los pacientes con EGC, pero solo los neutrófilos de los pacientes con defecto de p47-phox, fueron incapaces de expresar FasL. Estos defectos pudieran contribuir a entender la alteración de la muerte celular observada en los pacientes con EGC.