Browsing by Subject "Monoclonal antibody"

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    Corrigendum: Regulatory T cells targeting a pathogenic MHC class II: insulin peptide epitope postpone spontaneous autoimmune diabetes
    (Frontiers Media, 2024-03-07) Obarorakpor, Nyerhovwo; Patel, Deep; Boyarov, Reni; Amarsaikhan, Nansalmaa; Cepeda, Joseph Ray; Eastes, Doreen; Robertson, Sylvia; Johnson, Travis; Yang, Kai; Tang, Qizhi; Zhang, Li; Biostatistics and Health Data Science, Richard M. Fairbanks School of Public Health
    In the published article, there was an error in the Funding statement. Grant “JDRF 2-SRA-2018-648-S-B” grant was missing in the statement. The correct Funding statement appears below. Funding This study was supported by grants from NIH R03AI139811-01A1, DoD W81XWH2210087, JDRF 2-SRA-2018-648-S-B, and a Pilot and Feasibility Award from the CDMD NIH/NIDDK Grant Number P30 DK097512 (to LZ). The authors apologize for this error and state that this does not change the scientific conclusions of the article in any way. The original article has been updated.
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    Longer term outcomes with single-agent belantamab mafodotin in patients with relapsed or refractory multiple myeloma: 13-month follow-up from the pivotal DREAMM-2 study
    (Wiley, 2021) Lonial, Sagar; Lee, Hans C.; Badros, Ashraf; Trudel, Suzanne; Nooka, Ajay K.; Chari, Ajai; Abdallah, Al-Ola; Callander, Natalie; Sborov, Douglas; Suvannasankha, Attaya; Weisel, Katja; Voorhees, Peter M.; Womersley, Lynsey; Baron, January; Piontek, Trisha; Lewis, Eric; Opalinska, Joanna; Gupta, Ira; Cohen, Adam D.; Medicine, School of Medicine
    Background: On the basis of the DREAMM-2 study (ClinicalTrials.gov identifier NCT03525678), single-agent belantamab mafodotin (belamaf) was approved for patients with relapsed or refractory multiple myeloma (RRMM) who received ≥4 prior therapies, including anti-CD38 therapy. The authors investigated longer term efficacy and safety outcomes in DREAMM-2 after 13 months of follow-up among patients who received belamaf 2.5 mg/kg. Methods: DREAMM-2 is an ongoing, phase 2, open-label, 2-arm study investigating belamaf (2.5 or 3.4 mg/kg) in patients with RRMM who had disease progression after ≥3 lines of therapy and were refractory to immunomodulatory drugs and proteasome inhibitors and refractory and/or intolerant to an anti-CD38 therapy. The primary outcome was the proportion of patients that achieved an overall response, assessed by an independent review committee. Results: As of January 31, 2020, 10% of patients still received belamaf 2.5 mg/kg. Thirty-one of 97 patients (32%; 97.5% confidence interval [CI], 21.7%-43.6%) achieved an overall response, and 18 responders achieved a very good partial response or better. Median estimated duration of response, overall survival, and progression-free survival were 11.0 months (95% CI, 4.2 months to not reached), 13.7 months (95% CI, 9.9 months to not reached), and 2.8 months (95% CI, 1.6-3.6 months), respectively. Response and survival outcomes in patients who had high-risk cytogenetics or renal impairment were consistent with outcomes in the overall population. Outcomes were poorer in patients with extramedullary disease. In patients who had a clinical response and prolonged dose delays (>63 days; mainly because of corneal events), 88% maintained or deepened responses during their first prolonged dose delay. Overall, there were no new safety signals during this follow-up. Conclusions: Extended follow-up confirms sustained clinical activity without new safety signals with belamaf in this heavily pretreated patient population with RRMM.
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    Monoclonal Antibodies against Plasmodium falciparum Circumsporozoite Protein
    (MDPI, 2017-08-23) Zhang, Min; Mandraju, Rajakumar; Rai, Urvashi; Shiratsuchi, Takayuki; Tsuji, Moriya; Pharmacology and Toxicology, School of Medicine
    Malaria is a mosquito-borne infectious disease caused by the parasite Plasmodium spp. Malaria continues to have a devastating impact on human health. Sporozoites are the infective forms of the parasite inside mosquito salivary glands. Circumsporozoite protein (CSP) is a major and immunodominant protective antigen on the surface of Plasmodium sporozoites. Here, we report a generation of specific monoclonal antibodies that recognize the central repeat and C-terminal regions of P. falciparum CSP. The monoclonal antibodies 3C1, 3C2, and 3D3-specific for the central repeat region-have higher titers and protective efficacies against challenge with sporozoites compared with 2A10, a gold standard monoclonal antibody that was generated in early 1980s.
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    Regulatory T cells targeting a pathogenic MHC class II: Insulin peptide epitope postpone spontaneous autoimmune diabetes
    (Frontiers Media, 2023-08-01) Obarorakpor, Nyerhovwo; Patel, Deep; Boyarov, Reni; Amarsaikhan, Nansalmaa; Cepeda, Joseph Ray; Eastes, Doreen; Robertson, Sylvia; Johnson, Travis; Yang, Kai; Tang, Qizhi; Zhang, Li; Biostatistics and Health Data Science, School of Medicine
    Introduction: In spontaneous type 1 diabetes (T1D) non-obese diabetic (NOD) mice, the insulin B chain peptide 9-23 (B:9-23) can bind to the MHC class II molecule (IAg7) in register 3 (R3), creating a bimolecular IAg7/InsulinB:9-23 register 3 conformational epitope (InsB:R3). Previously, we showed that the InsB:R3-specific chimeric antigen receptor (CAR), constructed using an InsB:R3-monoclonal antibody, could guide CAR-expressing CD8 T cells to migrate to the islets and pancreatic lymph nodes. Regulatory T cells (Tregs) specific for an islet antigen can broadly suppress various pathogenic immune cells in the islets and effectively halt the progression of islet destruction. Therefore, we hypothesized that InsB:R3 specific Tregs would suppress autoimmune reactivity in islets and efficiently protect against T1D. Methods: To test our hypothesis, we produced InsB:R3-Tregs and tested their disease-protective effects in spontaneous T1D NOD.CD28-/- mice. Results: InsB:R3-CAR expressing Tregs secrete IL-10 dominated cytokines upon engagement with InsB:R3 antigens. A single infusion of InsB:R3 Tregs delayed the onset of T1D in 95% of treated mice, with 35% maintaining euglycemia for two healthy lifespans, readily home to the relevant target whereas control Tregs did not. Our data demonstrate that Tregs specific for MHC class II: Insulin peptide epitope (MHCII/Insulin) protect mice against T1D more efficiently than polyclonal Tregs lacking islet antigen specificity, suggesting that the MHC II/insulin-specific Treg approach is a promising immune therapy for safely preventing T1D.