Adam C. Bledsoe scite author profile

BACKGROUND & AIMS: In celiac disease (CeD), gluten induces immune activation, leading to enteropathy. TAK-101, gluten protein (gliadin) encapsulated in negatively charged poly(DLlactide-co-glycolic acid) nanoparticles, is designed to induce gluten-specific tolerance. METHODS: TAK-101 was evaluated in phase 1 dose escalation safety and phase 2a double-blind, randomized, placebo-controlled studies. Primary endpoints included pharmacokinetics, safety, and tolerability of TAK-101 (phase 1) and change from baseline in circulating gliadinspecific interferon-g-producing cells at day 6 of gluten challenge, in patients with CeD (phase 2a). Secondary endpoints in the phase 2a study included changes from baseline in enteropathy (villus height to crypt depth ratio [Vh:Cd]), and frequency of intestinal intraepithelial lymphocytes and peripheral gut-homing T cells. RESULTS: In phase 2a, 33 randomized patients completed the 14-day gluten challenge. TAK-101 induced an 88% reduction in change from baseline in interferon-g spot-forming units vs placebo (2.01 vs 17.58, P ¼ .006). Vh:Cd deteriorated in the placebo group (À0.63, P ¼ .002), but not in the TAK-101 group (À0.18, P ¼ .110), although the intergroup change from baseline was not significant (P ¼ .08). Intraepithelial lymphocyte numbers remained equal. TAK-101 reduced changes in circulating a4b7 þ CD4 þ (0.26 vs 1.05, P ¼ .032), aEb7 þ CD8 þ (0.69 vs 3.64, P ¼ .003), and gd (0.15 vs 1.59, P ¼ .010) effector memory T cells. TAK-101 (up to 8 mg/kg) induced no clinically meaningful changes in vital signs or routine clinical laboratory evaluations. No serious adverse events occurred. CONCLUSIONS: TAK-101 was well tolerated and prevented gluten-induced immune activation in CeD. The findings from the present clinical trial suggest that antigen-specific tolerance was induced and represent a novel approach translatable to other immune-mediated diseases. ClinicalTrials.gov identifiers: NCT03486990 and NCT03738475.

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Anxiety states induced by post-weaning social isolation are mediated by CRF receptors in the dorsal raphe nucleus

Bledsoe

Oliver

Scholl

et al. 2011

Brain Research Bulletin

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Post-weaning social isolation of rats is utilized as a model of early life stress. We have previously demonstrated that rats exposed to post-weaning social isolation exhibit greater anxiety-like behaviors as adults. Furthermore, these rats exhibit greater density of corticotropin-releasing factor (CRF) type 2 receptors in the dorsal raphe nucleus. Therefore, we examined whether antagonism of CRF2 receptors in the dorsal raphe nucleus reverses the effects of post-weaning social isolation on anxiety states. Male rats were reared in isolation or in groups from day of weaning (postnatal day [PND] 21) to mid-adolescence (PND42) and then allowed to develop to early adulthood housed in groups. At PND62, rats were either infused with vehicle, the CRF1 receptor antagonist antalarmin (0.25-0.5 μg) or the CRF2 receptor antagonist antisauvagine-30 (2 μg) into the dorsal raphe nucleus, 20 minutes prior to being introduced to the elevated plus maze. Isolation-reared rats showed reduced open arm behavior compared to group-reared rats, confirming the anxiogenic effects of post-weaning social isolation. Infusion of the CRF2 receptor antagonist, but not the CRF1 receptor antagonist, into the dorsal raphe nucleus of isolation-reared rats increased open arm behavior when compared to that of group-reared rats. Overall, the findings suggest that CRF2 receptors within the dorsal raphe nucleus mediate anxiety-like states following post-weaning social isolation, and CRF2 receptors may represent an important target for the treatment of anxiety disorders following early life stressors.

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Adam C. Bledsoe

Anti–Siglec-8 Antibody for Eosinophilic Gastritis and Duodenitis

TAK-101 Nanoparticles Induce Gluten-Specific Tolerance in Celiac Disease: A Randomized, Double-Blind, Placebo-Controlled Study

Anxiety states induced by post-weaning social isolation are mediated by CRF receptors in the dorsal raphe nucleus

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