An orally available compound suppresses glucagon hypersecretion and normalizes hyperglycemia in type 1 diabetes
Farzad Asadi, Subhadra C. Gunawardana, Roland E. Dolle, David W. Piston
Farzad Asadi, Subhadra C. Gunawardana, Roland E. Dolle, David W. Piston
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Research Article Endocrinology

An orally available compound suppresses glucagon hypersecretion and normalizes hyperglycemia in type 1 diabetes

Abstract

Suppression of glucagon hypersecretion can normalize hyperglycemia during type 1 diabetes (T1D). Activating erythropoietin-producing human hepatocellular receptor type-A4 (EphA4) on α cells reduced glucagon hypersecretion from dispersed α cells and T1D islets from both human donor and mouse models. We synthesized a high-affinity small molecule agonist for the EphA4 receptor, WCDD301, which showed robust plasma and liver microsome metabolic stability in both mouse and human preparations. In islets and dispersed islet cells from nondiabetic and T1D human donors, WCDD301 reduced glucagon secretion comparable to the natural EphA4 ligand, Ephrin-A5. In diabetic NOD and streptozotocin-treated mice, once-daily oral administration of WCDD301 formulated with a time-release excipient reduced plasma glucagon and normalized blood glucose for more than 3 months. These results suggest that targeting the α cell EphA4 receptor by sustained release of WCDD301 is a promising pharmacologic pathway for normalizing hyperglycemia in patients with T1D.

Authors

Farzad Asadi, Subhadra C. Gunawardana, Roland E. Dolle, David W. Piston

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Figure 3

WCDD301 enhances intracellular F-actin and EphA4 intensities in both human and mouse dispersed islet cells.

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WCDD301 enhances intracellular F-actin and EphA4 intensities in both hum...
(A) Immunostained images of human dispersed islet cells for F-actin and glucagon in vehicle-treated (C, control) and cells treated with WCDD301 or Ephrin-A5 Fc (E). (B) Immunostained images of mouse dispersed islet cells for F-actin and glucagon in C, 301, and E groups. (C) Immunostained images of human dispersed islet cells for EphA4 and glucagon in C, 301, and E groups. (D) Immunostained images of mouse dispersed islet cells for EphA4 and glucagon in C, 301, and E groups. (E) Comparison of F-actin intensity among C, 301, and E groups of human cells. (F) Comparison of F-actin intensity among C, 301, and E groups of mouse cells. (G) Comparison of EphA4 intensity among C, 301, and E groups of human cells. (H) Comparison of EphA4 intensity among C, 301, and E groups of mouse cells. On the scatter bar plot, each dot represents values (mean ± SD) of 1 mouse or human. Values (mean ± SEM) of treatment groups (n = 3 human, and n = 5 mouse) were compared with the respective controls using 1-way ANOVA, α = 0.05. *P < 0.05, **P < 0.01. Scale bar: 10 μm.