Project description:Purpose: Construction of a SARSCoV2 vaccine TCR specific machine learning model using single-cell TCR technology sequencing Methods：PBMCs were isolated from peripheral venous blood of HLA-A2+ healthy donors. PBMCs were incubated with antibody cocktail and then RapidSpheres, then the magnet was applied and unbound CD8+ T cells were recovered from the supernatant. According to the above method of CD8+ T activation, CD8+ T cells specific for ancestral epitopes were obtained by stimulating with the corresponding mutant ancestral peptides. Activation-specific CD8+ T cells were labeled with tetramers-PE and CD8-APC and then sorted out by flow cytometer FACS Canto (BD). The following protocol describes surface protein staining with hashtag antibodies for protein detection outside of the single cell V(D)J signature barcoding technique for differentiating CD8+ T cells with different epitope specificities after mixing up samples. The following is the hashtag information corresponding to the ancestral epitopes of the mutant strains. B.1.1.7 corresponds to the ancestral epitope ORF1a 1707-16 , ORF1a 2225-34 , ORF1a 2230-38. B.1.617.2 corresponds to the ancestral epitope M 82-90 . B.1.617.3 corresponds to the ancestral epitope ORF1a 2240-49, ORF1a 3683-92 , and ancestral epitope S 2-11 of B.1.526.2 without labeled hashtag protein. Cell number and viability were checked after surface protein hashtag staining (cell viability > 80%). Then droplet-encapsulation single-cell sequencing experiments were performed, and 10,000 living single cells were loaded onto each of the Chromium Controller (10x Genomics). After droplet-encapsulation, single-cell cDNA synthesis, amplification and sequencing libraries were generated using Chromium Single Cell 5' Feature Barcode Library Kit (10x Genomics),Chromium The result showed the inactivated vaccine is less protective in older adults, who take longer to develop effective antibodies, and the TCR diversity of each epitope specific repertoire decreased in the elderly. In addition, we found inactivated vaccines could stimulate the proliferation of related B cells in the body, thereby reducing the diversity of BCR in the body. Compared with the young, the elderly is less likely to produce antibody related BCR clones and the same is true for TCR diversity. Conclusions: The result showed the inactivated vaccine is less protective in older adults, who take longer to develop effective antibodies, and the TCR diversity of each epitope specific repertoire decreased in the elderly. In addition, we found inactivated vaccines could stimulate the proliferation of related B cells in the body, thereby reducing the diversity of BCR in the body. Compared with the young, the elderly is less likely to produce antibody related BCR clones and the same is true for TCR diversity.

Project description:We isolated highly purified CD8+CD28+ and CD8+CD28- T cell populations from healthy young and elderly persons for gene expression profiling using Affymetrix oligonucleotide microarrays. We demonstrate that the gene expression profile of CD8+CD28- T cells is very similar in young and elderly persons. In contrast, CD8+CD28+ in elderly differ from CD8+CD28+ in young persons. Hierarchical clustering revealed that CD8+CD28+ in elderly are located between CD8+CD28+ in young and CD8?CD28- (young and old) T cells regarding their differentiation state. Our study demonstrates a dichotomy of gene expression levels between CD8+CD28+ T cells in young and elderly persons but a similarity between CD8+CD28- T cells in young and elderly persons. As CD8+CD28+ T cells from elderly and young persons are distinct due to a different composition of the population, these results suggest that the gene expression profile does not depend on chronological age but depends on the differentiation state of the individual cell types.

Project description:Seasonal influenza contributes to a substantial disease burden annually, resulting in approximately 10 million hospital visits and 50 thousand deaths in a typical year in the US. 90% of the annual mortality from influenza occurs in people over the age of 65. While influenza vaccination is the best protection against the virus, it is less effective for the elderly. This may be due to differences in the quantity or type of B cells induced by vaccination in older individuals. To investigate this possibility, we leveraged recent development in single-cell technology that allows for simultaneous measurement of both gene expression profile and the B cell receptor (BCR) at single-cell resolution. Pre- and post-vaccination peripheral blood B cells were sorted from three young and three older adults who responded to the inactivated influenza vaccine and were profiled using single-cell RNAseq with paired BCR sequencing. At pre-vaccination, we observed a higher somatic hypermutation frequency and a higher abundance of activated B cells in older adults than in young adults. Following vaccination, young adults mounted a more clonal response than older adults. The response involved a mix of plasmablasts, activated B cells, and resting memory B cells in both age groups. The response in young adults was dominated by expansion in plasmablasts, while the response in older adults also involved activated B cells. We observed a consistent change in gene expression in plasmablasts after vaccination between age groups but not in the activated B cells. These quantitative and qualitative differences in the B cell response may provide insights into the age-related change of influenza vaccination response.

Project description:Seasonal influenza contributes to a substantial disease burden annually, resulting in approximately 10 million hospital visits and 50 thousand deaths in a typical year in the US. 90% of the annual mortality from influenza occurs in people over the age of 65. While influenza vaccination is the best protection against the virus, it is less effective for the elderly. This may be due to differences in the quantity or type of B cells induced by vaccination in older individuals. To investigate this possibility, we leveraged recent development in single-cell technology that allows for simultaneous measurement of both gene expression profile and the B cell receptor (BCR) at single-cell resolution. Pre- and post-vaccination peripheral blood B cells were sorted from three young and three older adults who responded to the inactivated influenza vaccine and were profiled using single-cell RNAseq with paired BCR sequencing. At pre-vaccination, we observed a higher somatic hypermutation frequency and a higher abundance of activated B cells in older adults than in young adults. Following vaccination, young adults mounted a more clonal response than older adults. The response involved a mix of plasmablasts, activated B cells, and resting memory B cells in both age groups. The response in young adults was dominated by expansion in plasmablasts, while the response in older adults also involved activated B cells. We observed a consistent change in gene expression in plasmablasts after vaccination between age groups but not in the activated B cells. These quantitative and qualitative differences in the B cell response may provide insights into the age-related change of influenza vaccination response.

Project description:Immune escape is a prerequisite of tumor growth. We previously described a decline in intratumor activated GZMB+CD8+ T cells and T cell receptor (TCR) clonotype diversity in invasive compared to in situ (DCIS) breast carcinomas implying a role for decreasing TCR diversity in tumor progression. Here, we evaluated peripheral blood TCR clonotype diversity in breast cancer patients diagnosed with DCIS or de novo stage IV disease at different ages. We found that peripheral TCR diversity is associated with clinicopathologic, and peripheral immune status and it correlates with the frequency of CD8+ T cells in DCIS of young patients. These results provide new insights to the role of host immunity and breast cancer development in different aged women.

Project description:Immune escape is a prerequisite of tumor growth. We previously described a decline in intratumor activated GZMB+CD8+ T cells and T cell receptor (TCR) clonotype diversity in invasive compared to in situ (DCIS) breast carcinomas implying a role for decreasing TCR diversity in tumor progression. Here, we evaluated peripheral blood TCR clonotype diversity in breast cancer patients diagnosed with DCIS or de novo stage IV disease at different ages. We found that peripheral TCR diversity is associated with clinicopathologic, and peripheral immune status and it correlates with the frequency of CD8+ T cells in DCIS of young patients. These results provide new insights to the role of host immunity and breast cancer development in different aged women.

Project description:Immune escape is a prerequisite of tumor growth. We previously described a decline in intratumor activated GZMB+CD8+ T cells and T cell receptor (TCR) clonotype diversity in invasive compared to in situ (DCIS) breast carcinomas implying a role for decreasing TCR diversity in tumor progression. Here, we evaluated peripheral blood TCR clonotype diversity in breast cancer patients diagnosed with DCIS or de novo stage IV disease at different ages. We found that peripheral TCR diversity is associated with clinicopathologic, and peripheral immune status and it correlates with the frequency of CD8+ T cells in DCIS of young patients. These results provide new insights to the role of host immunity and breast cancer development in different aged women.

Project description:To compare the effects of different types of SARS-CoV-2 vaccines in booster immunization in Elderly Adults, this study established a population cohort vaccinated with inactivated vaccine and protein subunit vaccine as the third booster vaccine in Elderly Adults over 70 Years of Age, respectively. We collected serum and PBMC samples from participants, and performed a systematic review of distinct antibody signatures and microtranscriptomics to provide data support for booster immunization.

Project description:BALB/c mice were vaccinated with inactivated influenza A virus adjuvanted with liposomal TLR4 (2B182C) and TLR7 agonists (2B182C) on days 0 and 21. To examine whether the liposomal combined adjuvant increase BCR diversity, lymphocytes in the draining lymph nodes harvested on day 28 were analyzed using next-generation RNA sequencing technology.

Project description:We generated LNP-mRNAs specifically encoding wildtype (WT), B.1.351 and B.1.617 SARS-CoV-2 spikes, and systematically studied their immune responses. BCR-seq and TCR-seq unveiled repertoire diversity and clonal expansions in vaccinated animals.