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Stem Cell Study of Genetics and Drug Addiction

Completed
Conditions
Induced Pluripotent Stem Cells
Registration Number
NCT01534624
Lead Sponsor
National Institute on Drug Abuse (NIDA)
Brief Summary

Background:

- Researchers are interested in studying the roles that genes play in drug and alcohol addiction. Genes seem to account for about half of the differences between people who become addicted to drugs and people who do not. This study will collect blood and skin cell samples. These cells will be used to develop stem cells that are useful for studying how genes are related to drug use and dependence.

Objectives:

- To study genetic and cellular differences between people who are addicted to drugs and those who are not.

Eligibility:

* Individuals between 21 and 65 years of age who do not use drugs.

* Individuals between 21 and 65 years of age who are in treatment with buprenorphine or methadone.

Design:

* Participants will be screened with a brief physical exam and medical history.

* Participants will also answer questions about physical and mental health, quality of life, and history of drug and alcohol use. A urine sample and cheek swab sample will be collected.

* Participants whose genetic samples match the study requirements will be asked to come back to provide a skin biopsy sample and a second urine sample.

Detailed Description

Background - The molecular- and cellular-based mechanisms that contribute to the initiation and development of addiction remain to be elucidated. Estimates have suggested that 40-60 percent of the vulnerability to addiction may be attributable to genetic aberrations. Multiple chromosomal regions have been linked to addiction including those containing the dopamine transporter (DAT) and vesicular monoamine transporter (VMAT2) genes. Current efforts to understand how polymorphisms in these monoamine transporters contribute to the molecular mechanisms of addiction are severely hindered by the inability to directly interrogate neural cell types from the patients. There is great potential for patient-specific iPS cell technology to profoundly impact our understanding of human development and disease by providing genetically distinct, functional sources of human cells.

Objective - The objective of the research is to develop a cell-based system whereby neural cells from afflicted individuals can be functionally assayed to interrogate the molecular mechanisms underlying addiction.

Study population Controls (non-drug users) and opioid dependent adults receiving opioid agonist therapy aged 21- 65 will be enrolled.

Design Participants demographic characteristics, psychosocial evaluation, and psychiatric, medical, and drug use histories will be characterized. DNA will be collected via cheek swabs of up to 30 potential participants for determination of dopamine transporter (DAT) and vesicular monoamine transporter (VMAT2) gene polymorphisms. Participants (N=16) with suitable polymorphisms will be asked to under go skin biopsies; 2 individuals for each of two genotypes for each gene (DAT or VMAT), i.e., 8 samples from addicts and 8 samples for control subjects. Collaborators at Case Western Reserve University will use the skin cells to derive and characterize patient-specific, induced pluripotent stem (iPS) cells that carry monoamine transporter polymorphisms for the hDAT1 and hVMAT2 genes. They will differentiate patient-specific iPS cells line into dopaminergic neurons and carry out a detailed and functional characterization of these cells to identify their molecular characteristics.

Outcome measures - Biological specimens from the addiction patients and controls will be used to derive and characterize patient-specific, induced pluripotent stem (iPS) cells that carry monoamine transporter polymorphisms. Patient-specific iPS cells lines will be differentiated into dopaminergic neurons. In follow up studies, we will characterize, compare, and functionally assay these patient-specific, iPS cell-derived dopaminergic neurons from control and addiction patients that carry polymorphisms for hDAT1 and hVMAT2 gene to investigate any possible association with dopamine neurotransmission variations and vulnerability to addiction.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
49
Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Primary Outcome Measures
NameTimeMethod
Derive and characterize patient-specific, induced pluripotent stem (iPS) cells that carry monoamine transporter polymorphisms and differentiate them into dopaminergic neurons.
Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

National Institute on Drug Abuse

🇺🇸

Baltimore, Maryland, United States

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