Tianeptine for Treatment Resistant Depression

Overview

The studies will be conducted in parallel at two sites: the the Mood and Anxiety Disorders Program at the Icahn School of Medicine at Mount Sinai (MSSM), and Stanford Depression Research Clinic at Stanford University School of Medicine (SUSM). In addition, MRI studies for the MSSM patients will be carried out at the New York State Psychaitric Institute (NYSPI). The following procedures will be approved by the local Institutional Review Boards (IRBs) at each site, where the site PIs (Alla Landa, PhD, NYSPI, James Murrough, MD at MSSM, and Alan Schatzberg, MD at SUSM) will be responsible for overseeing conduct of the study at their respective site. Dr. Jonathan Javitch is the scientific leader of this program and holds the IND for tianeptine use in this study. Investigators will recruit 75 participants with current unipolar MDD, non-delusional, between 21-60, who have failed at least 2 two adequate treatment trials with a standard antidepressant. Patients will receive an 8-week treatment trial of tianeptine. MSSM patients will also undergo structural and task-based magnetic resonance imaging (MRI) that will be performed under Dr. Landa's direction at NYSPI in order to maintain the internal validity of the data set. MSSM subjects will be transported to NYSPI to complete neuroimaging procedures as described below. Participants will be screened for MRI clearance during their screening visit and again at NYSPI on the day of the scan. Subjects will be asked MRI screening questions to ensure that are scanning eligible. Participants will also have additional tubes of blood drawn for human whole-genomic testing. This microarray will be used to identify regions of the human genome that contribute to disease susceptibility and phenotypes. The Illumina human whole-genome array will be used to provide a comprehensive view of the genome, detects single nucleotide polymorphisms and other variations across the genome.

Major depressive disorder (MDD) is a leading cause of disability in adults worldwide (\~16M patients in United States alone). Unfortunately, only 35-40% of patients achieve full remission following first-line treatment and treatment-resistant depression (TRD), failure to respond to 2 or more treatments, is a critical clinical problem. As with MDD, there is mechanistic heterogeneity in TRD and consequently, there is a need to develop treatments targeted to biologically distinct subgroups of patients. Significant evidence suggests dysfunction of endogenous opioid signaling pathways as a key biological deficit in some MDD patients. Investigators hypothesize that a subgroup of MDD patients with deficient opioid receptor signaling who have failed previous trials of antidepressants will better respond to pharmacological interventions specifically targeting this biological mechanism. In this application, Investigators propose to target the mu-opioid receptor (MOR) in TRD patients by using the antidepressant tianeptine. Although not available in the United States, Tianeptine is an atypical antidepressant that has been used clinically in Europe, Asia, and South America since the late 1980s in millions of patients. Until recently tianeptine's molecular mechanism of action had remained unknown. Tianeptine is a different type of antidepressant than those currently approved in the United States in that it has a different mechanism of action than other antidepressants. Tianeptine is an opioid antagonist; it binds at the mu-opioid receptor. Currently approved antidepressants act on other systems of the brain that primarily affect serotonin, norepinephrine, and dopamine. Work in our laboratories has shown that tianeptine acts as a selective agonist of MOR, signaling in a manner analogous to enkephalins and endorphins, the endogenous opioid peptides. The investigator applied for and received an IND to import and use tianeptine for this study. The studies will be conducted in parallel at two sites: the the Mood and Anxiety Disorders Program at the Icahn School of Medicine at Mount Sinai (MSSM), and Stanford Depression Research Clinic at Stanford University School of Medicine (SUSM). In addition, MRI studies for the MSSM patients will be carried out at the New York State Psychaitric Institute (NYSPI). The following procedures will be approved by the local Institutional Review Boards (IRBs) at each site, where the site PIs (Alla Landa, PhD, NYSPI, James Murrough, MD at MSSM, and Alan Schatzberg, MD at SUSM) will be responsible for overseeing conduct of the study at their respective site. Dr. Jonathan Javitch is the scientific leader of this program and holds the IND for tianeptine use in this study. Investigators will recruit 75 participants with current unipolar MDD, non-delusional, between 21-60, who have failed at least 2 two adequate treatment trials with a standard antidepressant. MSSM patients will also undergo structural and task-based magnetic resonance imaging (MRI) that will be performed under Dr. Alla Landa's direction at NYSPI in order to maintain the internal validity of the data set. MSSM subjects will be transported to NYSPI to complete neuroimaging procedures as described below. Participants will be screened for MRI clearance during their screening visit and again at NYSPI on the day of the scan. Subjects will be asked MRI screening questions to ensure that are scanning eligible. Participants will also have additional tubes of blood drawn for human whole-genomic testing. This microarray will be used to identify regions of the human genome that contribute to disease susceptibility and phenotypes. The Illumina human whole-genome array will be used to provide a comprehensive view of the genome, detects single nucleotide polymorphisms and other variations across the genome. The major goals of this project are (1) to determine if tianeptine is an effective antidepressant in patients who have failed two previous trials, (2) to define the relationship between opioid signaling deficits and response to tianeptine treatment, and (3) to develop a comprehensive assessment battery capable of identifying endogenous opioid signaling deficits to explore biological heterogeneity in the TRD population.