A cross-sectional study evidences regulations of leukocytes in the colostrum of mothers with obesity
Background Breastmilk is a dynamic fluid whose initial function is to provide the most adapted nutrition to the neonate. Additional attributes have been recently ascribed to breastmilk, with the evidence of a specific microbiota and the presence of various components of the immune system, such as cytokines and leukocytes. The composition of breastmilk varies through time, according to the health status of mother and child, and altogether contributes to the future health of the infant. Obesity is a rising condition worldwide that creates a state of systemic, chronic inflammation including leukocytosis. Here, we asked whether colostrum, the milk produced within the first 48 h post-partum, would contain a distinct leukocyte composition depending on the body mass index (BMI) of the mother. Methods We collected peripheral blood and colostrum paired samples from obese (BMI > 30) and lean (BMI < 25) mothers within 48 h post-partum and applied a panel of 6 antibodies plus a viability marker to characterize 10 major leukocyte subpopulations using flow cytometry. Results The size, internal complexity, and surface expression of CD45 and CD16 of multiple leukocyte subpopulations were selectively regulated between blood and colostrum irrespective of the study groups, suggesting a generalized cell-specific phenotype alteration. In obesity, the colostrum B lymphocyte compartment was significantly reduced, and CD16+ blood monocytes had an increased CD16 expression compared to the lean group. Conclusions This is the first characterization of major leukocyte subsets in colostrum of mothers suffering from obesity and the first report of colostrum leukocyte subpopulations in Latin America. We evidence various significant alterations of most leukocyte populations between blood and colostrum and demonstrate a decreased colostrum B lymphocyte fraction in obesity. This pioneering study is a stepping stone to further investigate active immunity in human breastmilk.
A pseudovirus-based platform to measure neutralizing antibodies in Mexico using SARS-CoV-2 as proof-of-concept
The gold-standard method to evaluate a functional antiviral immune response is to titer neutralizing antibodies (NAbs) against a viral pathogen. This is historically performed using an in vitro assay of virus-mediated infection, which requires BSL-3 facilities. As these are insufficient in Latin American countries, including Mexico, scant information is obtained locally about viral pathogens NAb, using a functional assay. An alternative solution to using a BSL-3 assay with live virus is to use a BSL-2-safe assay with a non-replicative pseudovirus. Pseudoviral particles can be engineered to display a selected pathogen’s entry protein on their surface, and to deliver a reporter gene into target cells upon transduction. Here we comprehensively describe the first development of a BSL-2 safe NAbs-measuring functional assay in Mexico, based on the production of pseudotyped lentiviral particles. As proof-of-concept, the assay is based on Nanoluc luciferase-mediated luminescence measurements from target cells transduced with SARS-CoV-2 Spike-pseudotyped lentiviral particles. We applied the optimized assay in a BSL-2 facility to measure NAbs in 65 serum samples, which evidenced the assay with 100% sensitivity, 86.6% specificity and 96% accuracy. Overall, this is the first report of a BSL-2 safe pseudovirus-based functional assay developed in Mexico to measure NAbs, and a cornerstone methodology necessary to measure NAbs with a functional assay in limited resources settings.
The gold-standard method to evaluate a functional antiviral immune response is to titer neutralizing antibodies (NAbs) against a viral pathogen. This is historically performed using an in vitro assay of virus-mediated infection, which requires BSL-3 facilities. As these are insufficient in Latin America, including Mexico, scant information is obtained locally about viral pathogens NAb, using a functional assay. An alternative solution is to use a BSL-2-safe assay with non-replicative viral particles engineered to display a selected pathogen’s entry protein on their surface, that deliver a reporter gene into target cells upon entry protein-mediated transduction. Here we comprehensively describe the first development of a BSL-2 safe NAb-measuring functional assay in Mexico, based on the production of pseudotyped lentiviral particles. As proof-of-concept, the assay is based on Nanoluc-mediated luminescence measurements from target cells transduced with SARS-CoV-2 Spike-pseudotyped lentiviral particles. We applied the optimized assay in a BSL-2 facility to measure SARS-CoV-2 Spike NAbs in 65 serum samples, which evidenced the assay with 100% sensitivity, 86.6% specificity and 96% accuracy. Overall, this is the first report of a BSL-2 safe pseudovirus-based functional assay developed in Mexico to measure NAbs, and a cornerstone methodology necessary to measure NAbs with a functional assay in limited resources settings.
Breastmilk is a dynamic fluid which initial goal is to provide the most adapted nutrition to the neonate. Additional functions have been recently attributed to breastmilk, with the evidence of a specific microbiota and the presence of a variety of components of the immune system, such as cytokines and leukocytes. The composition of breastmilk varies through time, according to the health status of mother and child, and altogether contributes to future health of the infant. Obesity is a rising condition worldwide, that creates a state of systemic, chronic inflammation including leukocytosis. Here, we asked whether colostrum, the milk produced within the first 48 h post-partum, would contain a distinct leukocyte composition depending on the body mass index (BMI) of the mother. We applied a panel of 6 antibodies plus viability marker to the peripheral blood and colostrum obtained from obese (BMI > 30) and lean (BMI < 25) mothers to characterize 10 major leukocyte subpopulations using flow cytometry. While lymphoid cells were otherwise unaffected by their tissue of origin, the phenotypes of granulocyte and monocyte populations significantly contrasted between blood and colostrum, including variations in morphology and surface expression of CD45 and CD16. These differences recapitulated across groups, which suggests a generalized cell-specific phenotype alteration caused by trafficking to colostrum. The B lymphocyte compartment was significantly reduced in obese colostrum and these cells did not exhibit enhanced CD16 shedding in this tissue, unlike B lymphocytes from lean mothers’ colostrum. This is the first exhaustive characterization of major leukocyte subsets in obese mothers’ colostrum, and the first report of leukocyte subpopulations from Latin-American women’s colostrum. This pioneering study is a steppingstone to further investigate active immunity in human breastmilk.
Measuring the neutralizing potential of SARS-CoV-2 antigens-exposed sera informs on effective humoral immunity. This is relevant to 1-monitor levels of protection within an asymptomatic population, 2-evaluate the efficacy of existing and novel vaccines against emerging variants, 3-test prospective therapeutic monoclonal neutralizing antibodies (NAbs) and, overall, to contribute to understand SARS-CoV-2 immunity. However, the gold-standard method to titer NAbs is a functional assay of virus-mediated infection, which requires biosafety level 3 (BSL-3) facilities. As these facilities are insufficient in Latin American countries, including Mexico, scant information has been obtained about NAb in these countries during the COVID-19 pandemic. An alternative solution to acquire NAb information locally is to use non-replicative viral particles that display the SARS-CoV-2 Spike (S) protein on their surface, and deliver a reporter gene into target cells upon transduction. Here we present the development of a NAb-measuring assay based on Nanoluc-mediated luminescence measurements from SARS-CoV-2 S-pseudotyped lentiviral particle-infected cells. We applied the optimized assay in a BSL-2 facility to measure NAbs in 15 pre-pandemic, 18 COVID-19 convalescent and 32 BNT162b2 vaccinated serum samples, which evidenced the assay with 100% sensitivity, 86.6% specificity and 96% accuracy. The assay highlighted heterogeneity in neutralization curves which are relevant in discussing neutralization potency dynamics. Overall, this is the first report of a BSL-2 safe functional assay to measure SARS-CoV-2 in Mexico and a cornerstone methodology necessary to measure NAb with a functional assay in the context of limited resources settings.
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