Major Depressive Disorder Clinical Trial
Official title:
Exploring the Neural Substrates of Cognitive Dysfunction With Glucagon-like Peptide-1 Agonists
Cognitive deficits are a core feature across disparate brain disorders, being highly
prevalent and pervasive. Impairments in executive function are one of the most consistent
findings in clinical and meta-analytical studies and were reported to be a principal mediator
of psychosocial impairment and disability. Cognitive dysfunction is thought to be underlied
by abnormalities in distributed brain circuits, at the cellular and molecular levels.
Nonetheless, the neural mechanisms underlying the dysregulation in these circuits are poorly
understood. Emerging evidence indicates that metabolic abnormalities are highly relevant for
the domain of cognitive function and indicate that alterations in metabolic pathways may be
relevant to neurocognitive decline across different populations. The incretin glucagon-like
peptide-1 (GLP-1) is a hormone secreted by intestinal epithelial cells. GLP-1 receptors are
widely expressed in the central nervous systems. Pre-clinical trials have demonstrated
significant neuroprotective effects of GLP-1. Ongoing clinical trials measuring cognition and
mood in populations with various psychiatric disorders lend further impetus to explore the
effects of GLP-1R agonists on brain structure and cognitive function. We hypothesize that
GLP-1 and the GLP-1R are relevant for molecular and cellular processes that are thought to
underlie the formation and maintenance of brain circuits. A derivative of this hypothesis is
that the administration of GLP-1 agonists may result in enhanced neuronal survival and
consequential increase in gray matter volume. We therefore propose to explore the cellular
and molecular abnormalities within and between neural circuits subserving cognition using the
GLP-1R agonist liraglutide.
The overall goal of this study is to explore the relationship between a metabolic molecular
target (i.e. the GLP1 system), the neural circuits of interest and the behavioral phenotype
cognitive function.
We propose to explore the effects of GLP-1 agonism on brain structure and function. We
hypothesize that the administration of GLP-1 agonists may result in increased connectivity in
the executive control network. Multiple clinical trials with pharmacological agents, as well
as cognitive therapy, have reported that measurements of brain structure and function are
correlated with cognitive performance, indicating that they are a valid biological correlate
of cognitive function. To assess this hypothesis we will recruit a clinical population,
represented by individuals with a measurable impairment in executive function, wherein the
target of our proposed intervention was shown to be altered.
We are currently not in a position to sufficiently homogenize subgroups of adults with mood
disorder on the basis of any single or combinatorial biomarkers. It is also unlikely that
alterations in GLP-1 receptor function, and the proposed model herein, is sufficiently
explanatory to all sub-populations of adults with mood disorders. Instead, we propose that
adults with mood disorders, who have co-existing metabolic disorders (e.g. type 2 diabetes
mellitus), would be more likely to have a brain illness that is influenced by (i.e. cause,
consequence or both) alterations in cellular bioenergetics. Moreover, convergent evidence
suggest that GLP-1 receptor function may be, at least partially, dependent on glucose levels
and/or insulin sensibility. It is a separate, yet testable, hypothesis that subpopulations
enriched on the basis of having metabolic comorbidity (i.e. insulin resistance) may be more
responsive to an intervention that targets a metabolic pathway.
We plan to test the effects of adjunctive liraglutide on executive function. We will select a
subpopulation of patients, with a mood disorder and impairment in executive function, as
defined by a below-average (i.e. 1 standard deviation below norm) performance in the Trail
Making Test-B (TMTB). Furthermore, we plan to recruit two groups of patients, with and
without insulin resistance, as defined by a homeostatic model assessment for insulin
resistance (HOMA-IR) above 2.5, which will allow a comparison of the effects of liraglutide
in a metabolically heterogeneous population.
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