Searched for: in-biosketch:true
person:heratr01
Efficacy of CTLA-4 checkpoint therapy is dependent on IL-21 signaling to mediate cytotoxic reprogramming of PD-1+CD8+ T cells
Zhang, Zhen; Langenbach, Marlene; Sagar, Sagar; Fetsch, Viktor; Stritzker, Jonas; Severa, Elizabeth; Meng, Ke; Winkler, Frances; Rana, Nisha; Zoldan, Katharina; Godbole, Ira; Solis, Sabrina; Weber, Jeffrey S; Rafei-Shamsabadi, David; Lehr, Saskia; Diehl, Rebecca; Venhoff, Ana Cecilia; Voll, Reinhard E; Buettner, Nico; Neumann-Haefelin, Christoph; Boettler, Tobias; Hofmann, Maike; Boerries, Melanie; Meiss, Frank; Zeiser, Robert; Thimme, Robert; Herati, Ramin S; Bengsch, Bertram
The mechanisms underlying the efficacy of anti-programmed cell death protein 1 (PD-1) and anti-cytotoxic T lymphocyte-associated protein 4 (CTLA-4) therapy are incompletely understood. Here, by immune profiling responding PD-1+CD8+ T (TResp) cell populations from patients with advanced melanoma, we identified differential programming of TResp cells in response to combination therapy, from an exhausted toward a more cytotoxic effector program. This effect does not occur with anti-PD-1 monotherapy. Single-cell transcriptome and T cell receptor repertoire analysis was used to identify altered effector programming of expanding PD-1+CD8+ T cell clones with distinct regulon usage, STAT1 and STAT3 utilization and antitumor specificity connected to interleukin (IL)-21 signaling in combination and anti-CTLA-4 monotherapy. Therapeutic efficacy of CTLA-4 blockade was lost in B16F10 melanoma models with either Il21r- deficiency or anti-IL-21 receptor blockade. Together, these results show how IL-21 signaling to TResp is critical for anti-CTLA-4-based checkpoint therapies and highlight major signaling differences to anti-PD-1 monotherapy.
PMID: 39702858
ISSN: 1529-2916
CID: 5764842
Combination anti-PD-1 and anti-CTLA-4 therapy generates waves of clonal responses that include progenitor-exhausted CD8+ T cells
Wang, Kevin; Coutifaris, Paulina; Brocks, David; Wang, Guanning; Azar, Tarek; Solis, Sabrina; Nandi, Ajeya; Anderson, Shaneaka; Han, Nicholas; Manne, Sasikanth; Kiner, Evgeny; Sachar, Chirag; Lucas, Minke; George, Sangeeth; Yan, Patrick K; Kier, Melanie W; Laughlin, Amy I; Kothari, Shawn; Giles, Josephine; Mathew, Divij; Ghinnagow, Reem; Alanio, Cecile; Flowers, Ahron; Xu, Wei; Tenney, Daniel J; Xu, Xiaowei; Amaravadi, Ravi K; Karakousis, Giorgos C; Schuchter, Lynn M; Buggert, Marcus; Oldridge, Derek; Minn, Andy J; Blank, Christian; Weber, Jeffrey S; Mitchell, Tara C; Farwell, Michael D; Herati, Ramin S; Huang, Alexander C
Combination checkpoint blockade with anti-PD-1 and anti-CTLA-4 antibodies has shown promising efficacy in melanoma. However, the underlying mechanism in humans remains unclear. Here, we perform paired single-cell RNA and T cell receptor (TCR) sequencing across time in 36 patients with stage IV melanoma treated with anti-PD-1, anti-CTLA-4, or combination therapy. We develop the algorithm Cyclone to track temporal clonal dynamics and underlying cell states. Checkpoint blockade induces waves of clonal T cell responses that peak at distinct time points. Combination therapy results in greater magnitude of clonal responses at 6 and 9 weeks compared to single-agent therapies, including melanoma-specific CD8+ T cells and exhausted CD8+ T cell (TEX) clones. Focused analyses of TEX identify that anti-CTLA-4 induces robust expansion and proliferation of progenitor TEX, which synergizes with anti-PD-1 to reinvigorate TEX during combination therapy. These next generation immune profiling approaches can guide the selection of drugs, schedule, and dosing for novel combination strategies.
PMCID:11387127
PMID: 39214097
ISSN: 1878-3686
CID: 5689842
SARS-CoV-2 inflammation durably imprints memory CD4 T cells
Gray-Gaillard, Sophie L; Solis, Sabrina M; Chen, Han M; Monteiro, Clarice; Ciabattoni, Grace; Samanovic, Marie I; Cornelius, Amber R; Williams, Tijaana; Geesey, Emilie; Rodriguez, Miguel; Ortigoza, Mila Brum; Ivanova, Ellie N; Koralov, Sergei B; Mulligan, Mark J; Herati, Ramin Sedaghat
Memory CD4 T cells are critical to human immunity, yet it is unclear whether viral inflammation during memory formation has long-term consequences. Here, we compared transcriptional and epigenetic landscapes of Spike (S)-specific memory CD4 T cells in 24 individuals whose first exposure to S was via SARS-CoV-2 infection or mRNA vaccination. Nearly 2 years after memory formation, S-specific CD4 T cells established by infection remained enriched for transcripts related to cytotoxicity and for interferon-stimulated genes, likely because of a chromatin accessibility landscape altered by inflammation. Moreover, S-specific CD4 T cells primed by infection had reduced proliferative capacity in vitro relative to vaccine-primed cells. Furthermore, the transcriptional state of S-specific memory CD4 T cells was minimally altered by booster immunization and/or breakthrough infection. Thus, infection-associated inflammation durably imprints CD4 T cell memory, which affects the function of these cells and may have consequences for long-term immunity.
PMID: 38905326
ISSN: 2470-9468
CID: 5672432
Integrative multi-omics profiling in human decedents receiving pig heart xenografts
Schmauch, Eloi; Piening, Brian; Mohebnasab, Maedeh; Xia, Bo; Zhu, Chenchen; Stern, Jeffrey; Zhang, Weimin; Dowdell, Alexa K; Kim, Jacqueline I; Andrijevic, David; Khalil, Karen; Jaffe, Ian S; Loza, Bao-Li; Gragert, Loren; Camellato, Brendan R; Oliveira, Michelli F; O'Brien, Darragh P; Chen, Han M; Weldon, Elaina; Gao, Hui; Gandla, Divya; Chang, Andrew; Bhatt, Riyana; Gao, Sarah; Lin, Xiangping; Reddy, Kriyana P; Kagermazova, Larisa; Habara, Alawi H; Widawsky, Sophie; Liang, Feng-Xia; Sall, Joseph; Loupy, Alexandre; Heguy, Adriana; Taylor, Sarah E B; Zhu, Yinan; Michael, Basil; Jiang, Lihua; Jian, Ruiqi; Chong, Anita S; Fairchild, Robert L; Linna-Kuosmanen, Suvi; Kaikkonen, Minna U; Tatapudi, Vasishta; Lorber, Marc; Ayares, David; Mangiola, Massimo; Narula, Navneet; Moazami, Nader; Pass, Harvey; Herati, Ramin S; Griesemer, Adam; Kellis, Manolis; Snyder, Michael P; Montgomery, Robert A; Boeke, Jef D; Keating, Brendan J
In a previous study, heart xenografts from 10-gene-edited pigs transplanted into two human decedents did not show evidence of acute-onset cellular- or antibody-mediated rejection. Here, to better understand the detailed molecular landscape following xenotransplantation, we carried out bulk and single-cell transcriptomics, lipidomics, proteomics and metabolomics on blood samples obtained from the transplanted decedents every 6 h, as well as histological and transcriptomic tissue profiling. We observed substantial early immune responses in peripheral blood mononuclear cells and xenograft tissue obtained from decedent 1 (male), associated with downstream T cell and natural killer cell activity. Longitudinal analyses indicated the presence of ischemia reperfusion injury, exacerbated by inadequate immunosuppression of T cells, consistent with previous findings of perioperative cardiac xenograft dysfunction in pig-to-nonhuman primate studies. Moreover, at 42 h after transplantation, substantial alterations in cellular metabolism and liver-damage pathways occurred, correlating with profound organ-wide physiological dysfunction. By contrast, relatively minor changes in RNA, protein, lipid and metabolism profiles were observed in decedent 2 (female) as compared to decedent 1. Overall, these multi-omics analyses delineate distinct responses to cardiac xenotransplantation in the two human decedents and reveal new insights into early molecular and immune responses after xenotransplantation. These findings may aid in the development of targeted therapeutic approaches to limit ischemia reperfusion injury-related phenotypes and improve outcomes.
PMID: 38760586
ISSN: 1546-170x
CID: 5654102
mRNA COVID-19 vaccine elicits potent adaptive immune response without the acute inflammation of SARS-CoV-2 infection
Ivanova, Ellie N.; Shwetar, Jasmine; Devlin, Joseph C.; Buus, Terkild B.; Gray-Gaillard, Sophie; Koide, Akiko; Cornelius, Amber; Samanovic, Marie I.; Herrera, Alberto; Mimitou, Eleni P.; Zhang, Chenzhen; Karmacharya, Trishala; Desvignes, Ludovic; Ødum, Niels; Smibert, Peter; Ulrich, Robert J.; Mulligan, Mark J.; Koide, Shohei; Ruggles, Kelly V.; Herati, Ramin S.; Koralov, Sergei B.
SARS-CoV-2 infection and vaccination elicit potent immune responses. Our study presents a comprehensive multimodal single-cell analysis of blood from COVID-19 patients and healthy volunteers receiving the SARS-CoV-2 vaccine and booster. We profiled immune responses via transcriptional analysis and lymphocyte repertoire reconstruction. COVID-19 patients displayed an enhanced interferon signature and cytotoxic gene upregulation, absent in vaccine recipients. B and T cell repertoire analysis revealed clonal expansion among effector cells in COVID-19 patients and memory cells in vaccine recipients. Furthermore, while clonal αβ T cell responses were observed in both COVID-19 patients and vaccine recipients, expansion of clonal γδ T cells was found only in infected individuals. Our dataset enables side-by-side comparison of immune responses to infection versus vaccination, including clonal B and T cell responses. Our comparative analysis shows that vaccination induces a robust, durable clonal B and T cell responses, without the severe inflammation associated with infection.
SCOPUS:85179086246
ISSN: 2589-0042
CID: 5620862
mRNA COVID-19 vaccine elicits potent adaptive immune response without the acute inflammation of SARS-CoV-2 infection
Ivanova, Ellie N; Shwetar, Jasmine; Devlin, Joseph C; Buus, Terkild B; Gray-Gaillard, Sophie; Koide, Akiko; Cornelius, Amber; Samanovic, Marie I; Herrera, Alberto; Mimitou, Eleni P; Zhang, Chenzhen; Karmacharya, Trishala; Desvignes, Ludovic; Ødum, Niels; Smibert, Peter; Ulrich, Robert J; Mulligan, Mark J; Koide, Shohei; Ruggles, Kelly V; Herati, Ramin S; Koralov, Sergei B
SARS-CoV-2 infection and vaccination elicit potent immune responses. Our study presents a comprehensive multimodal single-cell analysis of blood from COVID-19 patients and healthy volunteers receiving the SARS-CoV-2 vaccine and booster. We profiled immune responses via transcriptional analysis and lymphocyte repertoire reconstruction. COVID-19 patients displayed an enhanced interferon signature and cytotoxic gene upregulation, absent in vaccine recipients. B and T cell repertoire analysis revealed clonal expansion among effector cells in COVID-19 patients and memory cells in vaccine recipients. Furthermore, while clonal αβ T cell responses were observed in both COVID-19 patients and vaccine recipients, expansion of clonal γδ T cells was found only in infected individuals. Our dataset enables side-by-side comparison of immune responses to infection versus vaccination, including clonal B and T cell responses. Our comparative analysis shows that vaccination induces a robust, durable clonal B and T cell responses, without the severe inflammation associated with infection.
PMID: 38213787
ISSN: 2589-0042
CID: 5755392
Multimodal single-cell datasets characterize antigen-specific CD8+ T cells across SARS-CoV-2 vaccination and infection
Zhang, Bingjie; Upadhyay, Rabi; Hao, Yuhan; Samanovic, Marie I; Herati, Ramin S; Blair, John D; Axelrad, Jordan; Mulligan, Mark J; Littman, Dan R; Satija, Rahul
The immune response to SARS-CoV-2 antigen after infection or vaccination is defined by the durable production of antibodies and T cells. Population-based monitoring typically focuses on antibody titer, but there is a need for improved characterization and quantification of T cell responses. Here, we used multimodal sequencing technologies to perform a longitudinal analysis of circulating human leukocytes collected before and after immunization with the mRNA vaccine BNT162b2. Our data indicated distinct subpopulations of CD8+ T cells, which reliably appeared 28 days after prime vaccination. Using a suite of cross-modality integration tools, we defined their transcriptome, accessible chromatin landscape and immunophenotype, and we identified unique biomarkers within each modality. We further showed that this vaccine-induced population was SARS-CoV-2 antigen-specific and capable of rapid clonal expansion. Moreover, we identified these CD8+ T cell populations in scRNA-seq datasets from COVID-19 patients and found that their relative frequency and differentiation outcomes were predictive of subsequent clinical outcomes.
PMID: 37735591
ISSN: 1529-2916
CID: 5606242
Immune response, phenotyping and molecular graft surveillance in kidney transplant recipients following severe acute respiratory syndrome coronavirus 2 vaccination
Ali, Nicole M; Herati, Ramin S; Mehta, Sapna A; Leonard, Jeanette; Miles, Jake; Lonze, Bonnie E; DiMaggio, Charles; Tatapudi, Vasishta S; Stewart, Zoe A; Alnazari, Nasser; Neumann, Henry J; Thomas, Jeffrey; Cartiera, Katarzyna; Weldon, Elaina; Michael, Jennifer; Hickson, Christopher; Whiteson, Harris; Khalil, Karen; Stern, Jeffrey M; Allen, Joseph R; Tuen, Michael; Gray-Gaillard, Sophie L; Solis, Sabrina M; Samanovic, Marie I; Mulligan, Mark J; Montgomery, Robert A
BACKGROUND:Understanding immunogenicity and alloimmune risk following severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccination in kidney transplant recipients is imperative to understanding the correlates of protection and to inform clinical guidelines. METHODS:We studied 50 kidney transplant recipients following SARS-CoV-2 vaccination and quantified their anti-spike protein antibody, donor-derived cell-free DNA (dd-cfDNA), gene expression profiling (GEP), and alloantibody formation. RESULTS:Participants were stratified using nucleocapsid testing as either SARS-CoV-2-naïve or experienced prior to vaccination. One of 34 (3%) SARS-CoV-2 naïve participants developed anti-spike protein antibodies. In contrast, the odds ratio for the association of a prior history of SARS-CoV-2 infection with vaccine response was 18.3 (95% confidence interval 3.2, 105.0, p < 0.01). Pre- and post-vaccination levels did not change for median dd-cfDNA (0.23% vs. 0.21% respectively, p = 0.13), GEP scores (9.85 vs. 10.4 respectively, p = 0.45), calculated panel reactive antibody, de-novo donor specific antibody status, or estimated glomerular filtration rate. CONCLUSIONS:SARS-CoV-2 vaccines do not appear to trigger alloimmunity in kidney transplant recipients. The degree of vaccine immunogenicity was associated most strongly with a prior history of SARS-CoV-2 infection.
PMID: 37707287
ISSN: 1399-3062
CID: 5593762
Discrete immune response signature to SARS-CoV-2 mRNA vaccination versus infection
Ivanova, Ellie N; Devlin, Joseph C; Buus, Terkild B; Koide, Akiko; Cornelius, Amber; Samanovic, Marie I; Herrera, Alberto; Zhang, Chenzhen; Desvignes, Ludovic; Odum, Niels; Ulrich, Robert; Mulligan, Mark J; Koide, Shohei; Ruggles, Kelly V; Herati, Ramin S; Koralov, Sergei B
Both SARS-CoV-2 infection and vaccination elicit potent immune responses. A number of studies have described immune responses to SARS-CoV-2 infection. However, beyond antibody production, immune responses to COVID-19 vaccines remain largely uncharacterized. Here, we performed multimodal single-cell sequencing on peripheral blood of patients with acute COVID-19 and healthy volunteers before and after receiving the SARS-CoV-2 BNT162b2 mRNA vaccine to compare the immune responses elicited by the virus and by this vaccine. Phenotypic and transcriptional profiling of immune cells, coupled with reconstruction of the B and T cell antigen receptor rearrangement of individual lymphocytes, enabled us to characterize and compare the host responses to the virus and to defined viral antigens. While both infection and vaccination induced robust innate and adaptive immune responses, our analysis revealed significant qualitative differences between the two types of immune challenges. In COVID-19 patients, immune responses were characterized by a highly augmented interferon response which was largely absent in vaccine recipients. Increased interferon signaling likely contributed to the observed dramatic upregulation of cytotoxic genes in the peripheral T cells and innate-like lymphocytes in patients but not in immunized subjects. Analysis of B and T cell receptor repertoires revealed that while the majority of clonal B and T cells in COVID-19 patients were effector cells, in vaccine recipients clonally expanded cells were primarily circulating memory cells. Importantly, the divergence in immune subsets engaged, the transcriptional differences in key immune populations, and the differences in maturation of adaptive immune cells revealed by our analysis have far-ranging implications for immunity to this novel pathogen.
PMCID:8077568
PMID: 33907755
ISSN: n/a
CID: 4852132
Molecularly distinct memory CD4+ T cells are induced by SARS-CoV-2 infection and mRNA vaccination
Gray-Gaillard, Sophie L; Solis, Sabrina; Monteiro, Clarice; Chen, Han M; Ciabattoni, Grace; Samanovic, Marie I; Cornelius, Amber R; Williams, Tijaana; Geesey, Emilie; Rodriguez, Miguel; Ortigoza, Mila Brum; Ivanova, Ellie N; Koralov, Sergei B; Mulligan, Mark J; Herati, Ramin Sedaghat
UNLABELLED:Adaptive immune responses are induced by vaccination and infection, yet little is known about how CD4+ T cell memory differs between these two contexts. Notable differences in humoral and cellular immune responses to primary mRNA vaccination were observed and associated with prior COVID-19 history, including in the establishment and recall of Spike-specific CD4+ T cells. It was unclear whether CD4+ T cell memory established by infection or mRNA vaccination as the first exposure to Spike was qualitatively similar. To assess whether the mechanism of initial memory T cell priming affected subsequent responses to Spike protein, 14 people who were receiving a third mRNA vaccination, referenced here as the booster, were stratified based on whether the first exposure to Spike protein was by viral infection or immunization (infection-primed or vaccine-primed). Using multimodal scRNA-seq of activation-induced marker (AIM)-reactive Spike-specific CD4+ T cells, we identified 220 differentially expressed genes between infection- and vaccine-primed patients at the post-booster time point. Infection-primed participants had greater expression of genes related to cytotoxicity and interferon signaling. Gene set enrichment analysis (GSEA) revealed enrichment for Interferon Alpha, Interferon Gamma, and Inflammatory response gene sets in Spike-specific CD4+ T cells from infection-primed individuals, whereas Spike-specific CD4+ T cells from vaccine-primed individuals had strong enrichment for proliferative pathways by GSEA. Finally, SARS-CoV-2 breakthrough infection in vaccine-primed participants resulted in subtle changes in the transcriptional landscape of Spike-specific memory CD4+ T cells relative to pre-breakthrough samples but did not recapitulate the transcriptional profile of infection-primed Spike-specific CD4+ T cells. Together, these data suggest that CD4+ T cell memory is durably imprinted by the inflammatory context of SARS-CoV-2 infection, which has implications for personalization of vaccination based on prior infection history. ONE SENTENCE SUMMARY/UNASSIGNED:SARS-CoV-2 infection and mRNA vaccination prime transcriptionally distinct CD4+ T cell memory landscapes which are sustained with subsequent doses of vaccine.
PMCID:9681040
PMID: 36415470
ISSN: 2692-8205
CID: 5390872