Klinik für Psychische Gesundheit

Identification of metabolic surrogates of treatment resistance and treatment response in schizophrenia based personalized disease models

Mentor: Prof. Dr. Michael J. Ziller
Email: ziller(at)­uni-muenster(dot)­de

Einleitung 

Up to one fourth of all SCZ patients will eventually convert to a treatment resistant state and typically receive clozapine as last resort treatment. At present, the biological mechanisms underlying the emergence of treatment resistant schizophrenia (TRS) remain unclear, but multiple lines of evidence suggest a strong genetic component. In order to dissect this molecular genetic basis of TRS, the Ziller group has generated induced pluripotent stem cells (iPSCs) from a large cohort of healthy individuals, first line responder and TR SCZ patients. These iPSCs were differentiated into different types of cortical neurons and subsequently investigated under baseline and treatment in vivo conditions, administering aripiprazole, loxapin and clozapine. Subsequently, treated and untreated neuronal cultures were subjected to deep molecular (transcriptomics, metabolomics) and electrophysiological (multi-electrode-arrays) characterization. These datasets are all readily available. It is the central goal of the overarching project to pinpoint genes, metabolites and electrophysiological parameters associated with treatment resistance and treatment response in vivo for subsequent follow up studies.

Fragestellung 

Within this complex matrix of questions, the focus of offered PhD thesis is on the analysis of the metabolomic data sets. In particular, it is the central goal of this thesis to identify metabolites and metabolic pathways differentially regulated between patient groups under baseline and treatment conditions. The student will specifically test the long standing hypothesis in the field of altered neurotransmitter concentrations and energy metabolism in the respective cells.

Bearbeitung

The PhD student will initially receive training datasets and familiarize her/himself with computational analysis methods for metabolomic data. Following successful analysis and quality control of these training data, the student will receive the relevant pre-processed metabolomic data from this study for analysis. 

Methoden

  • Computational analysis of high dimensional data in R
  • Quality control of metabolomic data
  • Metabolic data normalization and statistical analysis using generalized linear models (limma) 
  • Identification and control of confounding factors in complex datasets using surrogate variable analysis and combat
  • Metabolic modeling and flux balance analysis

Arbeitsprogramm

1.    Training in R, metabolome analysis using online tutorials and example datasets. Introduction  to github.
2.    Quality control and filtering of metabolomics data from treated and untreated SCZ patients and controls. Identification of confounders, evaluation of correction methods for confounders
3.    Dimensionality reduction techniques (PCA, (S)PLS)
4.    Differential metabolite analysis using generalized linear models
5.    Mapping of differential metabolites to metabolic pathways and in silico models of metabolic fluxTraining and prediction of metabolic flux models in different patient groups and conditions.
6.    Validation of differentially present metabolites by comparison to the literature and other available datasets. 
7.    Documentation of analyses and results through online code repositories and Jupiter notebooks.

 
 
 
 

Kontakt

Direktor Klinik für Psychische Gesundheit
Univ.-Prof. Dr.med. Bernhard Baune, MPH, MBA, FRANZCP
T +49 251 83-56601
F +49 251 83-56612
E-Mail: Bernhard.Baune(at)­ukmuenster(dot)­de

Sprecherin
Priv.-Doz. Dr. rer. nat. Pegah Sarkheil
T +49 251 83-56601
E-Mail: Pegah.Sarkheil(at)­ukmuenster(dot)­de