Immune-related adverse events, particularly severe toxicities such as myocarditis, are major challenges to immune checkpoint inhibitor (ICI) utility in anti-cancer therapy1. The pathogenesis of ICI-myocarditis is poorly understood. Pdcd1-/-Ctla4+/-mice recapitulate clinicopathologic features of ICI-myocarditis, including myocardial T cell in ltration2. Single cell RNA/T cell receptor (TCR) sequencing on the cardiac immune in ltrate of Pdcd1-/-Ctla4+/-mice identi ed activated, clonal CD8+ T cells as the dominant cell population. Treatment with anti-CD8, but not anti-CD4, depleting antibodies rescued survival of Pdcd1-/-Ctla4+/-mice. Adoptive transfer of immune cells from mice with myocarditis induced fatal myocarditis in recipients which required CD8+ T cells. Alpha-myosin, a cardiac speci c protein absent from the thymus3,4, was identi ed as the cognate antigen source for three MHC-I restricted TCRs derived from mice with fulminant myocarditis. Peripheral blood T cells from two patients with ICI-myocarditis were expanded by alpha-myosin peptides, and these alpha-myosin expanded T cells shared TCR clonotypes with diseased heart and skeletal muscles, indicating that alpha-myosin may be a clinically important autoantigen in ICI-myocarditis. These studies underscore the critical role for cytotoxic CD8+ T cells, are the rst to identify a candidate autoantigen in ICI-myocarditis and yield new insights into ICI toxicity pathogenesis.Grant 5P30 CA68485-19 and the Shared Instrumentation Grant S10 OD023475-01A1 for the Leica Bond RX. The Vanderbilt VANTAGE Core, including A. Jones and L. Raju, provided technical assistance for this work. VANTAGE is supported in part by a CTSA Grant (5UL1 RR024975-03), the Vanderbilt Ingram Cancer Center (P30 CA68485), the Vanderbilt Vision Center (P30 EY08126) and the NIH/NCRR (G20 RR030956). Figures 1a and 4b were created with BioRender.com.Con ict Interest Disclosure M.L. Axelrod is listed as a coinventor on a provisional patent application for methods to predict therapeutic outcomes using blood-based gene expression patterns, that is owned by Vanderbilt University Medical Center, and is currently unlicensed. S.C. Wei is an employee of Spotlight Therapeutics, a consultant for BioEntre, and an inventor on a patent for a genetic mouse model of autoimmune adverse events and immune checkpoint blockade therapy (PCT/US2019/050551) pending to Board of Regents, The University of Texas System. J.C. Rathmell is a founder, scienti c advisory board member, and stockholder of Sitryx Therapeutics, a scienti c advisory board member and stockholder of Caribou Biosciences, a member of the scienti c advisory board of Nirogy Therapeutics, has consulted for Merck, P zer, and Mitobridge within the past three years, and has received research support from Incyte Corp., Calithera Biosciences, and Tempest Therapeutics. P.B. Ferrell receives research support from Incyte Corporation. D.B.Johnson has served on advisory boards or as a consultant for BMS, Catalyst
Purpose: Immunotherapies targeting PD-1/L1 enhance pathologic complete response (pCR) rates when added to standard neoadjuvant chemotherapy (NAC) regimens in early-stage triple-negative, and possibly high-risk estrogen receptor–positive breast cancer. However, immunotherapy has been associated with significant toxicity, and most patients treated with NAC do not require immunotherapy to achieve pCR. Biomarkers discerning patients benefitting from the addition of immunotherapy from those who would achieve pCR to NAC alone are clearly needed. In this study, we tested the ability of MHC-II expression on tumor cells, to predict immunotherapy-specific benefit in the neoadjuvant breast cancer setting. Patients and Methods: This was a retrospective tissue-based analysis of 3 cohorts of patients with breast cancer: (i) primary nonimmunotherapy-treated breast cancers (n = 381), (ii) triple-negative breast cancers (TNBC) treated with durvalumab and standard NAC (n = 48), and (iii) HER2-negative patients treated with standard NAC (n = 87) or NAC and pembrolizumab (n = 66). Results: HLA-DR positivity on ≥5% of tumor cells, defined a priori, was observed in 10% and 15% of primary non-immunotherapy–treated hormone receptor–positive and triple-negative breast cancers, respectively. Quantitative assessment of MHC-II on tumor cells was predictive of durvalumab + NAC and pembrolizumab + NAC (ROC AUC, 0.71; P = 0.01 and AUC, 0.73; P = 0.001, respectively), but not NAC alone (AUC, 0.5; P = 0.99). Conclusions: Tumor-specific MHC-II has a strong candidacy as a specific biomarker of anti–PD-1/L1 immunotherapy benefit when added to standard NAC in HER2-negative breast cancer. Combined with previous studies in melanoma, MHC-II has the potential to be a pan-cancer biomarker. Validation is warranted in existing and future phase II/III clinical trials in this setting.
Asthma is an important global health problem, and the main cause of asthma is allergic reaction and immune system dysregulation. Airway inflammation causes bronchial narrowing, and goblet cell hyperplasia leads to mucus hypersecretion that leads to airflow obstruction and difficulty breathing. The Th2 cytokines can induce allergic asthma. Camellia, Adhatoda, and Glycyrrhiza are the traditional medicines that are used in some countries. In the current study, we evaluated three herbal extracts on airway inflammatory responses in asthmatic mice. The asthma model was induced in mice that were divided into 6 groups: Phosphate-buffered saline (PBS) group, ovalbumin (OVA) group, OVA-budesonide group, OVA-Glycyrrhiza group, OVA-Camellia group, and OVA-Adhatoda group. Measurements of IL-4, IL-5, IL-13, glutamate oxaloacetate transaminase (GOT), glutamic pyruvic transaminase (GPT), IgE, histamine, percentages of eosinophils in bronchoalveolar lavage fluid (BALf), gene expression of COX-2, CCL24, CCL11, eotaxin, and histopathological study of lung were done. Adhatoda significantly attenuated the IL-4, IgE, and histamine levels. Glycyrrhiza attenuated the levels of IL-5, IL-13, GTP, GOT (on day 51), mRNA expression of eotaxin, CCL24, CCL11, and COX-2, eosinophil infiltration, mucus secretion, and goblet cell hyperplasia. Camellia decreased IL-13, GTP, COX-2 mRNA expression, mucus secretion, and goblet cell hyperplasia on day 31 and 51. We evaluated effect of three plants on allergic bio-factors. Glycyrrhiza as main anti-inflammatory treatment, Adhatoda as anti-allergic, and Camellia as anti-mucus releasing treatment can be used in attacks of allergic asthma.
Immune-related adverse events, particularly severe toxicities such as myocarditis, are major challenges to immune checkpoint inhibitor (ICI) utility in anti-cancer therapy1. The pathogenesis of ICI-myocarditis is poorly understood. Pdcd1-/-Ctla4+/- mice recapitulate clinicopathologic features of ICI-myocarditis, including myocardial T cell infiltration2. Single cell RNA/T cell receptor (TCR) sequencing on the cardiac immune infiltrate of Pdcd1-/-Ctla4+/- mice identified activated, clonal CD8+ T cells as the dominant cell population. Treatment with anti-CD8, but not anti-CD4, depleting antibodies rescued survival of Pdcd1-/-Ctla4+/- mice. Adoptive transfer of immune cells from mice with myocarditis induced fatal myocarditis in recipients which required CD8+ T cells. Alpha-myosin, a cardiac specific protein absent from the thymus3,4, was identified as the cognate antigen source for three MHC-I restricted TCRs derived from mice with fulminant myocarditis. Peripheral blood T cells from two patients with ICI-myocarditis were expanded by alpha-myosin peptides, and these alpha-myosin expanded T cells shared TCR clonotypes with diseased heart and skeletal muscles, indicating that alpha-myosin may be a clinically important autoantigen in ICI-myocarditis. These studies underscore the critical role for cytotoxic CD8+ T cells, are the first to identify a candidate autoantigen in ICI-myocarditis and yield new insights into ICI toxicity pathogenesis.
BackgroundImmune checkpoint inhibitors (ICIs) are increasingly used to treat advanced malignancy but can be associated with immune related adverse events (irAE). Here we present a case report of a rare dermatologic toxicity occurring in a melanoma patient with isolated brain metastasis. After surgical resection, the patient was treated with ipilimumab (anti-CTLA-4) and nivolumab (anti-PD-1) combination therapy followed by single agent nivolumab with ongoing, excellent response. During nivolumab, the patient developed an erythema nodosum (EN)-like irAE. The condition resolved after potassium iodine treatment and nivolumab therapy was resumed. To understand the pathogenesis of this irAE, we examined samples from this patient's blood, brain metastasis and tissue biopsy of the EN toxicity.MethodsRNA and T cell receptor (TCR) sequencing on the patient's brain metastasis and site of irAE were performed. We also performed RNA sequencing on 3 non-ICI EN patients. RNA in situ hybridization (RNAish) for CD4, CD8 and granzyme B, and the most abundant TCR identified was conducted on the patient's site of toxicity. Single cell RNA/TCR sequencing was carried out on the patient's peripheral blood mononuclear cells (PBMC) at baseline, 3 weeks after ipilimumab and nivolumab combination therapy, during EN toxicity and after resolution.ResultsRNAish showed that the most abundant TCR (20% of total TCR sequencing reads at the site of toxicity) colocalized with CD4 at the site of toxicity. According to CIBERSORT deconvolution, the site of toxicity had high memory activated CD4 T cells and low M2 macrophage infiltration, which is different from the brain metastasis and non-ICI-induced EN cases. Compared to non-ICI EN, the EN skin biopsy was also enriched for interferon response and inflammation related genes. In the peripheral blood, cytotoxic CD8 T cells clonally expanded during EN toxicity, accompanied by a decrease in naïve/memory CD4 T cells. The TCR repertoire in the site of toxicity did not overlap with that in the tumor or PBMC.ConclusionsWe found oligoclonal memory activated CD4 T cells are enriched at the site of toxicity, suggesting their association with EN toxicity. The unique TCR repertoire, gene expression profile and immune cell composition at the site of toxicity could indicate that the EN toxicity is distinct from the anti-tumor immunity and analogous non-ICI autoimmunity. Future work will focus on determining the antigen for this irAE and determining its relevancy to other skin toxicities and EN autoimmune conditions.Ethics ApprovalIRB 100178 and 161485ConsentApproval under IRB 100178
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