The goal of this application is to identify candidate biomarkers which, in combination, may constitute a lingering biosignature that is informative of cocaine abuse history over a protracted period of time. The neurochemical and behavioral manifestations of chronic cocaine abuse are known to endure for a considerable duration, and given the role of neuropeptides and other secreted proteins in compulsive behaviors, drug abuse, and addiction, we hypothesize that the proteome of biophases that can be obtained, by minimally-invasive means, may contain families of biomarkers that reflect the well-established neurochemical alterations and constitute a peripherally-accessable cocaine abuse biosignature. Our approach is to apply recent inter-related analytical advances in sample processing, nano-scale liquid chromatography (nano-LC), and mass spectrometry (MS) that enhance the suitability of nano-LC/MS approaches for the analysis of highly complex proteomic samples such as tissues or bodily fluids. These advances provide: (i) highly quantitative recovery of tissue or sample proteins, (ii) highly reproducible, selective, and sensitive expression profiling of proteins, (iii) quantification of significantly greater numbers of proteins, and (iv) highly sensitive, multiplexed quantification of specific proteins of interest and (v) their PTM status. In the context of a well-controlled and validated rat model of cocaine abuse and withdrawal, samples will be obtained from naive- and drug-withdrawn animals both before and during a relapse of cocaine administration. Proteomes of select neural centers and blood will be contrasted to assemble lists of abuse-selective biomarker candidates, and their importance will be ranked by the commonality among replicates, the magnitude of change, and bioinformatic criteria relating them plausibly as drug-abuse responsive. In the second phase, the top-prioritized candidates will be confirmed and absolute quantification will be performed;matched plasma samples will be interrogated for these candidate biomarkers to identify promising constituents of a biosignature. Finally, using a rat model of addiction involving self- administration, we will attempt to refine biosignature candidates in terms of use/abuse vs. dependence/addiction, to determinate the exclusivity of these markers for drug addiction. By employing these linked analytical technologies and a well-validated animal model, we aim to investigate, identify, and validate potential biosignatures of cocaine abuse and relapse, based upon differential comparison of proteins in peripheral blood samples, which could aid in diagnosis, evaluation of therapy, and monitoring of recovery.

Public Health Relevance

Chronic use of drugs of abuse represents a scourge to users and society. The ability to obtain information about use patterns beyond the period of time in which drug or metabolites are detectable in blood would have broad applications in diagnosis, estimation of prognosis, personalization of treatment, evaluation of drug effects, and detection of relapse. We propose to combine novel analytical advances in liquid chromatography, mass spectrometry (LC/MS), and sample preparation, along with a series of validated animal models, to interrogate samples that are obtainable by minimally-invasive means, such as blood, to achieve the elusive goal of identifying families of persistent biomarkers, comprising a biosignature, of chronic cocaine abuse and addiction.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Exploratory/Developmental Grants (R21)
Project #
5R21DA027528-02
Application #
7911862
Study Section
Special Emphasis Panel (ZDA1-JXR-D (06))
Program Officer
Hillery, Paul
Project Start
2009-09-01
Project End
2013-08-31
Budget Start
2010-09-01
Budget End
2013-08-31
Support Year
2
Fiscal Year
2010
Total Cost
$313,830
Indirect Cost
Name
State University of New York at Buffalo
Department
Pharmacology
Type
Schools of Pharmacy
DUNS #
038633251
City
Buffalo
State
NY
Country
United States
Zip Code
14260
Shen, Xiaomeng; Shen, Shichen; Li, Jun et al. (2017) An IonStar Experimental Strategy for MS1 Ion Current-Based Quantification Using Ultrahigh-Field Orbitrap: Reproducible, In-Depth, and Accurate Protein Measurement in Large Cohorts. J Proteome Res 16:2445-2456
Tu, Chengjian; Mojica, Wilfrido; Straubinger, Robert M et al. (2017) Quantitative proteomic profiling of paired cancerous and normal colon epithelial cells isolated freshly from colorectal cancer patients. Proteomics Clin Appl 11:
Shen, Shichen; Jiang, Xiaosheng; Li, Jun et al. (2016) Large-Scale, Ion-Current-Based Proteomic Investigation of the Rat Striatal Proteome in a Model of Short- and Long-Term Cocaine Withdrawal. J Proteome Res 15:1702-16
Tu, Chengjian; Beharry, Kay D; Shen, Xiaomeng et al. (2015) Proteomic profiling of the retinas in a neonatal rat model of oxygen-induced retinopathy with a reproducible ion-current-based MS1 approach. J Proteome Res 14:2109-2120
Kamisoglu, Kubra; Sukumaran, Siddharth; Nouri-Nigjeh, Eslam et al. (2015) Tandem analysis of transcriptome and proteome changes after a single dose of corticosteroid: a systems approach to liver function in pharmacogenomics. OMICS 19:80-91
An, Bo; Zhang, Ming; Qu, Jun (2014) Toward sensitive and accurate analysis of antibody biotherapeutics by liquid chromatography coupled with mass spectrometry. Drug Metab Dispos 42:1858-66
Gui, Shanying; Gathiaka, Symon; Li, Jun et al. (2014) A remodeled protein arginine methyltransferase 1 (PRMT1) generates symmetric dimethylarginine. J Biol Chem 289:9320-7
Shen, Xiaomeng; Young, Rebeccah; Canty, John M et al. (2014) Quantitative proteomics in cardiovascular research: global and targeted strategies. Proteomics Clin Appl 8:488-505
Nouri-Nigjeh, Eslam; Sukumaran, Siddharth; Tu, Chengjian et al. (2014) Highly multiplexed and reproducible ion-current-based strategy for large-scale quantitative proteomics and the application to protein expression dynamics induced by methylprednisolone in 60 rats. Anal Chem 86:8149-57
Tu, Chengjian; Mammen, Manoj Jacob; Li, Jun et al. (2014) Large-scale, ion-current-based proteomics investigation of bronchoalveolar lavage fluid in chronic obstructive pulmonary disease patients. J Proteome Res 13:627-639

Showing the most recent 10 out of 18 publications