BookPaul C. Guest, editor.
Summary: Due to continuous technical developments and new insights into the high complexity of neurological diseases, there is an increasing need for the application of proteomic technologies which can yield potential biomarker readouts for improved clinical management as well as for the development of new drugs by struggling pharmaceutical companies. This book describes the step-by-step use of proteomic methods such as two-dimensional gel electrophoresis, multiplex immunoassay, liquid chromatography mass spectrometry (LC-MS) and selective reaction monitoring MS, to increase our understanding of these diseases, with the ultimate aim of improving patient care. The volume will be of high interest to clinical scientists, physicians and pharmaceutical company scientists as it gives insights into the latest technologies enabling the revolution of personalized medicine. It is of direct interest to both technical and bench biomarker scientists as it gives step by step instructions on how to carry out each of the protocols. It is also of interest to researchers as each technique will be presented in the context of a specific neurological disorder, including Alzheimer's disease, multiple sclerosis, autism spectrum disorders, schizophrenia, major depressive disorder and bipolar disorder. Finally, it will also highlight the future research efforts in this field, which are endeavoring to convert proteomic platforms to the form of hand held devices which can be used in a point of care setting and return diagnostic results within the timeframe of a visit to the general practitioner.
Contents:
Preface
Proteomic studies in psychiatric disease and neurological disorders
Part 1: REVIEWS
Application of proteomic techniques for improved stratification and treatment of schizophrenia patients
Multiplexing biomarker methods, proteomics and considerations for Alzheimer's disease
What have proteomic studies taught us about novel drug targets in autism?
Application of proteomic approaches to accelerate drug development for psychiatric disorders
Proteomic biomarker identification in cerebrospinal fluid for leptomeningeal metastases with neurological complications
Connecting brain proteomics with behavioural neuroscience in translational animal models of neuropsychiatric disorders
LC-MSE for qualitative and quantitative proteomicstudies of psychiatric disorders
The utility of multiplex assays for identification of proteomic signatures in psychiatry
Part 2: PROTOCOLS
Blood sampling and preparation procedures for proteomic biomarker studies of psychiatric disorders
Multiplex immunoassay profiling of serum in psychiatric disorders
Sequential immunopreciptation of secretory vesicle proteins from biosynthetically-labelled cells
2d gel electrophoresis of insulin secretory granule proteins from biosynthetically-labelled pancreatic islets
Two-dimensional gel electrophoresis: a reference protocol
A two-dimensional difference gel electrophoresis (2D-DIGE) protocol for studies of neural precursor cells
Identifying biomarker candidates in the blood plasma or serum proteome
Selective reaction monitoring mass spectrometry for quantitation of glycolytic enzymes in post-mortem brain samples
A selected reaction monitoring mass spectrometry protocol for validation of proteomic biomarker candidates in studies of psychiatric disorders
Application of iTRAQ shotgun proteomics for measurement of brain proteins in studies of psychiatric disorders
Co-immunoprecipitation for deciphering protein interactomes
Sequential co-immunopreciptation and immunoblot approach to determine oligomerisation of G-protein coupled receptors
A protocol for producing the maternal low protein rat model: a tool for pre-clinical proteomic studies
A clinical study protocol to identify serum biomarkers predictive of response to antipsychotics in schizophrenia patients
Generation of the acute phencyclidine rat model for proteomic studies of schizophrenia A protocol for generation of a corticosterone model of psychiatric disorders
MK-801-treated oligodendrocytes as a cellular model to study schizophrenia
Combining patient-reprogrammed neural cells and proteomics as a model to study psychiatric disorders
SILAC mass spectrometry profiling: a psychiatric disorder perspective
Preparation of peripheral blood mononuclear cells (PBMCs) as a model for proteomic studies psychiatric disorders
Proteomic profiling of skin fibroblasts as a model of schizophrenia Proteomic profiling of the pituitary gland in studies of psychiatric disorders
Development of an assay for measuring proprotein-conversion activity on a multiplex magnetic bead-based array platform
Phenotyping multiple subsets of immune cells in situ in formalin-fixed, paraffin-embedded tissue sections
Lab-on-a-chip proteomic assays for psychiatric disorders
Development of a user-friendly app for testing blood coagulation status in schizophrenia patients
Part 3:FUTURE PERSPECTIVES
Proteomic approaches to enable point-of-care testing and personalized medicine for psychiatric disorders.
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