Background Type 1 diabetes results from autoimmune-mediated destruction of β cells. The tyrosine kinase inhibitor imatinib might affect relevant immunological and metabolic pathways, and preclinical studies show that it reverses and prevents diabetes. Our aim was to evaluate the safety and efficacy of imatinib in preserving β-cell function in patients with recent-onset type 1 diabetes. MethodsWe did a multicentre, randomised, double-blind, placebo-controlled, phase 2 trial. Patients with recentonset type 1 diabetes (<100 days from diagnosis), aged 18-45 years, positive for at least one type of diabetesassociated autoantibody, and with a peak stimulated C-peptide of greater than 0•2 nmol L -¹ on a mixed meal tolerance test (MMTT) were enrolled from nine medical centres in the USA (n=8) and Australia (n=1). Participants were randomly assigned (2:1) to receive either 400 mg imatinib mesylate (4 × 100 mg film-coated tablets per day) or matching placebo for 26 weeks via a computer-generated blocked randomisation scheme stratified by centre. Treatment assignments were masked for all participants and study personnel except pharmacists at each clinical site. The primary endpoint was the difference in the area under the curve (AUC) mean for C-peptide response in the first 2 h of an MMTT at 12 months in the imatinib group versus the placebo group, with use of an ANCOVA model adjusting for sex, baseline age, and baseline C-peptide, with further observation up to 24 months. The primary analysis was by intention to treat (ITT). Safety was assessed in all randomly assigned participants. This study is registered with ClinicalTrials.gov, NCT01781975 (completed).Findings Patients were screened and enrolled between Feb 12, 2014, and May 19, 2016. 45 patients were assigned to receive imatinib and 22 to receive placebo. After withdrawals, 43 participants in the imatinib group and 21 in the placebo group were included in the primary ITT analysis at 12 months. The study met its primary endpoint: the adjusted mean difference in 2-h C-peptide AUC at 12 months for imatinib versus placebo treatment was 0•095 (90% CI -0•003 to 0•191; p=0•048, one-tailed test). This effect was not sustained out to 24 months. During the 24-month follow-up, 32 (71%) of 45 participants who received imatinib had a grade 2 severity or worse adverse event, compared with 13 (59%) of 22 participants who received placebo. The most common adverse events (grade 2 severity or worse) that differed between the groups were gastro intestinal issues (six [13%] partici pants in the imatinib group, primarily nausea, and none in the placebo group) and additional laboratory investigations (ten [22%] participants in the imatinib group and two [9%] in the placebo group). Per the trial protocol, 17 (38%) participants in the imatinib group required a temporary modification in drug dosing and six (13%) permanently discontinued imatinib due to adverse events; five (23%) participants in the placebo group had temporary modifications in dosing and none had a permanent discontinuation du...
Context Hyperprolactinemia suppresses GnRH-induced LH pulses. The hypothalamic neuropeptide kisspeptin potently stimulates the secretion of GnRH. The effects of exogenous kisspeptin administration on GnRH pulse generation in the setting of hyperprolactinemia have not previously been explored. Objective To examine the effects of kisspeptin on GnRH secretion, as reflected by LH secretion, in women with hyperprolactinemia. Participants Women with hyperprolactinemia. Intervention Women with hyperprolactinemia (n=11) participated in two, 12-hour visits. Prior to study visits, subjects underwent washout of dopamine agonist and/or combined oral contraceptive. Frequent blood sampling was performed (one sample was collected every 10 minutes). Visit 1 involved no intervention, in order to examine baseline LH pulsatility. During Visit 2, kisspeptin 112-121 (0.24 nmol/kg) was administered every 1 hour, for 10 hours. At hour 11, one IV bolus of GnRH (75 ng/kg) was administered. Results Repetitive IV bolus (IVB) kisspeptin administration increased the total number of LH pulses in the setting of hyperprolactinemia. The inter-pulse interval declined during the same time frames. LH pulse amplitude did not change, but the mean LH rose. In 6 participants with progesterone levels suggestive of an anovulatory state, mean LH, and estradiol levels increased significantly at Visit 2. In the entire cohort, FSH and PRL levels did not change significantly across the two visits. 73% of subjects exhibited an LH pulse within 30 minutes of first kisspeptin dose. Conclusions Kisspeptin is capable of stimulating hypothalamic GnRH-induced LH pulses in the setting of hyperprolactinemia.
Studies in several animal models and of humans with type 1 diabetes (T1D) have suggested that Qa-1/HLA-E restricted CD8+ T regulatory cells (Tregs) are important in maintaining self-tolerance and a defect thereof playing a key role in T1D pathogenesis. To evaluate the safety and efficacy of targeting this pathway in T1D we undertook a first in human, phase 1/2 study of AVT001, an investigational autologous dendritic cell-based vaccine designed to address this immunologic mechanism. This double-blind, randomized (2:1 treated vs placebo) trial enrolled individuals (n=25) who were 16 years and older, within 1 year of clinical diagnosis of T1D, and with an ex-vivo correctable defect in the function of HLA-E-restricted CD8+ Tregs. All participants underwent leukapheresis, the first step in the generation of AVT001. AVT001 treatment (n=16) or placebo (n=9) was delivered as a series of three-monthly intravenous infusions. The primary endpoint of the study was safety/tolerability at day 150. AVT001 was safe and well tolerated with all participants completing treatment, no peri-infusion reactions noted, and adverse events reported as being mild or moderate in the AVT001 treated group, with rates similar to placebo. A pre-specified efficacy endpoint was change from baseline in C-peptide area under the curve (AUC) during a 4-hour mixed meal tolerance test utilizing a mixed-effect model for repeated measurements (MMRM). The baseline mean (SD) AUCs were treated 0.531 (0.363) and placebo 0.611 (0.178) nmol/L. At day 150, the C-peptide AUCs were significantly different between groups, namely 0.518 (0.430) and 0.472 (0.134) respectively. Per MMRM, the least square mean difference between AVT001 and placebo at day 150, is estimated to be 0.172 (p=<.0001). There was an increase in AUC or no change for 6 (37.5%) in the AVT001 treated group and 1 (11.1%) in the placebo group. These results indicate that AVT001 treatment was safe and well tolerated with evidence of significant preservation of endogenous insulin secretion. Disclosure J.L.Gaglia: Advisory Panel; Dompé, Consultant; Vertex Pharmaceuticals Incorporated, Abata Therapeutics, Avotres Inc., Current Health, Research Support; Avotres Inc., Dompé, Imcyse, Stock/Shareholder; Vertex Pharmaceuticals Incorporated. J.Ritz: Advisory Panel; Novartis, Taleris, AvroBio, Clade Therapeutics, LifeVault Bio, Smart Immune, Garuda, Tscan, Research Support; Gilead Sciences, Inc., Novartis. H.Jiang: Employee; Avotres Inc. M.Mackey: None. H.L.Daley: None. N.Bryant: None. D.Y.Kim: None. T.Dong: Employee; Avotres Inc., Novartis. E.E.Fan: None. J.Vora: Other Relationship; Avotres Inc., Glyscend Inc. J.S.Skyler: Advisory Panel; Adocia, Altheia Sciences, Arecor, Avotres Inc., Bayer Inc., COUR Pharmaceuticals, Dance Biopharm/Aerami, Diasome, Enthera, Immnomolecular Therapeutics, Kriya Therapeutics, Oramed Pharmaceuticals, Orgenesis Inc., Precigen, Inc., ViaCyte, Inc., Board Member; Applied Therapeutics Inc., Dexcom, Inc., Consultant; Novo Nordisk, Sanofi, Signos, 4Immune, Other Relationship; Imcyse, Provention Bio, Inc. Funding Avotres Inc.
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