Wolfram syndrome (WFS:OMIM 222300) is a group of inherited disorders that usually appear in childhood and cause diabetes, optic atrophy leading to loss of vision, deafness and often diabetes insipidus. Wolfram syndrome affected no more than 0.2 in 10,000 people in the European Union. There is no cure and no treatment that will arrest or delay the progress of the disease. The gene responsible for WS1 is WFS1, it encodes for wolframin, a transmembrane glycoprotein involved in the regulation of the unfolded protein response. Recently, drug repurposing has been hypothesized from others and us as being useful for WS1 therapy. More specifically, GLP-1 receptor agonists were suggested as a promising class of anti- diabetic drugs having the potential to delay or even reverse disease progression based on their ability to reduce elevated ER stress in vitro and in vivo. The objective of this project is to create a model of precision-medicine oriented Rare Diabetes Clinic, which will be specifically dedicated to the treatment and follow-up of complex patients with Wolfram Syndrome. A team of clinicians and researchers specialized in diabetes and/or optic neuropathy and with experience in the subset of monogenic forms will make available a cohort of subjects with Wolfram Syndrome prospectively followed in an interventional protocol on the use of tirzepatide (a dual glucose-dependent insulinotropic polypeptide and glucagon-like peptide-1 receptor agonist). It will be a prospective phase 2, non-randomized, single group assignment, intervention trial to determine the efficacy of tirzepatide (GIP/GLP-1 receptor agonist) in increasing endogenous insulin production and correcting glycemic lability in patients with Wolfram syndrome type 1 (WS1). The expected outcomes of this study are 1) to provide a therapeutic option for a devastating orphan disease; 2) to confirm the efficacy of a repurposed drug able to reduce elevated endoplasmic reticulum (ER) stress in a disease that represents a model of ER disease; 3) to confirm the efficacy of the disease modeling based on iPSC to predict the response to treatment; 4) to develop a disease-specific multidisciplinary follow-up.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
10
tirzepatide once weekly
IRCCS San Raffaele Scientific Institute
Milan, Italy
RECRUITINGchanging in endogenous insulin production
C-peptide response in the Mixed Meal Tolerance Test (MMTT; change from baseline C-peptide response)
Time frame: [Time Frame: month 6±1, month 12±1]
changing in insulin production
mean change from baseline in stimulated 2 hour plasma C-peptide AUC (from MMTT) maximum stimulated plasma C-peptide: the highest value at any time point during the MMTT
Time frame: [Time Frame: month 6±1, month 12±1]
glucose variability
change from baseline in average glucose (measured by continuous glucose monitoring)
Time frame: [Time Frame: month 6±1, month 12±1]
glycemic variability
change from baseline in coefficient of glucose variation (measured by continuous glucose monitoring)
Time frame: [Time Frame: month 6±1, month 12±1]
change in time in range
change from baseline in time in range (measured by continuous glucose monitoring)
Time frame: [Time Frame: month 6±1, month 12±1]
change in insulin requirements
change from baseline in mean daily insulin use over the 3 days preceeding the study visits. The mean daily insulin use value will be calculated, in units of U/kg/day, as the mean of the values of amount of insulin used per day on each of the last three consecutive days preceeding each study visits.
Time frame: [Time Frame: month 3±1, month 6±1, month 12±1]
change in HbA1c
change from baseline in HbA1c
Time frame: [Time Frame: month 3±1, month 6±1, month 12±1]
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