The novel GLP-1-gastrin dual agonist, ZP3022, increases ß-cell mass and prevents diabetes in db/db mice.

AIM: Diabetes is characterized by ß-cell deficiency, and therefore restoration of ß-cell function has been suggested as a potential therapy. We hypothesized that a novel glucagon-like peptide-1 (GLP-1)-gastrin dual agonist, ZP3022, improves glycaemic control via improvement of ß-cell status in db/db mice. METHODS: Diabetic mice were studied following short- or long-term treatment with either the GLP-1-gastrin dual agonist or the commercially available GLP-1 agonists (exendin-4 and liraglutide). The effects on glycaemic control were addressed by repeated glucose tolerance tests and/or measurements of HbA1c levels, and pancreatic islet and ß-cell masses were determined by stereology. RESULTS: ZP3022 and the pure GLP-1 agonists improved glycaemic control after both short- and long-term treatment compared with vehicle. Interestingly, the effect was sustainable only in mice treated with ZP3022. Stereology data displayed a dose-dependent increase of ß-cell mass (p < 0.05) following treatment with ZP3022, whereas no significant effect of liraglutide was observed (ß-cell mass: vehicle 3.7 ± 0.2 mg; liraglutide (30 nmol/kg) 3.4 ± 0.5 mg; ZP3022 (30 nmol/kg) 4.3 ± 0.4 mg and ZP3022 (100 nmol/kg) 5.2 ± 0.4 mg). CONCLUSION: The novel GLP-1-gastrin dual agonist, ZP3022, improved glycaemic control in db/db mice, and pancreatic islet and ß-cell mass increased significantly following treatment with ZP3022 compared with vehicle.

Cutaneous in vivo metabolism of topical lidocaine formulation in human skin.

Little is known about the metabolising capacity of the human skin in relation to topically applied drugs and formulations. We chose lidocaine as a model compound since the metabolic pathways are well known from studies concerning hepatic metabolism following systemic drug administration. However, the enzymes involved are also expressed in the skin. Hence, the aim of the current study was to investigate the extent of the cutaneous in vivo metabolism of topically applied lidocaine in human volunteers. A dose of 5 mg/cm(2) of Xylocaine(R) (5% lidocaine) ointment was applied onto the buttock skin of the volunteers. After 2 h, residual formulation was removed, and two 4-mm punch biopsies were taken from each volunteer. The quantity of lidocaine extracted from the skin samples (epidermis + dermis) was 109 +/- 43 ng/mm(2) skin. One metabolite (monoethylglycine xylidide, MEGX) was detected in skin from 7 of the 9 volunteers. The quantity of MEGX formed, relative to the quantity of lidocaine in the skin, was not consistent and ranged from <0.8 to 12.8%. No other metabolites were detected.