TY - JOUR
T1 - Parkinson Disease
T2 - Translating Insights from Molecular Mechanisms to Neuroprotection
AU - Pirooznia, Sheila K.
AU - Rosenthal, Liana S.
AU - Dawson, Valina L.
AU - Dawson, Ted M.
N1 - Funding Information:
Address correspondence to: Dr. Ted M. Dawson, Neuroregeneration and Stem Cell Programs, Institute for Cell Engineering, Johns Hopkins University School of Medicine, 733 North Broadway, Suite 731, Baltimore, MD 21205. E-mail: [email protected] This work was supported by grants from National Institutes of Health (NIH) National Institute of Neurological Disorders and Stroke [Grant NS38377], [Grant NS097049], [Grant NS102035] and National Institute on Aging [Grant AG059686], the JPB Foundation the Michael J. Fox Foundation and the RMS Family Foundation and through support of the Adrienne Helis Malvin and Diana Helis Medical Research Foundations.
Funding Information:
One of the many challenges to biomarker identification is the variability of the methodology used to collect and measure the marker. There are many large research programs within PD that are seeking to address this challenge through the standardization of biofluid acquisition protocols. The Harvard Biomarker Study, established in 2008 (Mohammadi, 2013), developed a longitudinal biobank of clinical data with associated blood, cerebrospinal fluid (CSF), RNA, DNA, and ultimately autopsy tissue. Its primary goal is to identify biomarkers for PD and other neurodegenerative diseases. The Michael J. Fox Foundation’s Parkinson’s Progression Markers Initiative (PPMI) began in 2010 and has enrolled more than 1000 participants in the many different subgroups of the study (Simuni et al., 2020b; Weintraub et al., 2020). PPMI seeks to identify progression markers of PD and serves as a validation cohort for biomarkers discovered through other research studies, including the Harvard Biomarker Study and the newer studies BioFIND and the Parkinson’s Disease Biomarker Program (PDBP) (Rosenthal et al., 2016). The BioFIND study, funded by the Michael J. Fox Foundation and the National Institute of Neurologic Diseases and Stroke (NINDS), enrolled individuals with moderate-stage PD in a cross-sectional, case-control study and included blood and CSF collection. The PDBP, also funded by NINDS, is a longitudinal biof luid collection from individuals with all stages of PD and controls as well as some atypical parkinsonism patients. Biofluids from each of these investigations are submitted to a central repository, and qualified researchers can apply through a central mechanism to use these bi-ofluids to discover and validate new biomarkers.
Publisher Copyright:
© 2021 by The American Society for Pharmacology and Experimental Therapeutics.
PY - 2021/10/1
Y1 - 2021/10/1
N2 - Parkinson disease (PD) used to be considered a nongenetic condition. However, the identification of several autosomal dominant and recessive mutations linked to monogenic PD has changed this view. Clinically manifest PD is then thought to occur through a complex interplay between genetic mutations, many of which have incomplete penetrance, and environmental factors, both neuroprotective and increasing susceptibility, which variably interact to reach a threshold over which PD becomes clinically manifested. Functional studies of PD gene products have identified many cellular and molecular pathways, providing crucial insights into the nature and causes of PD. PD originates from multiple causes and a range of pathogenic processes at play, ultimately culminating in nigral dopaminergic loss and motor dysfunction. An in-depth understanding of these complex and possibly convergent pathways will pave the way for therapeutic approaches to alleviate the disease symptoms and neuroprotective strategies to prevent disease manifestations. This review is aimed at providing a comprehensive understanding of advances made in PD research based on leveraging genetic insights into the pathogenesis of PD. It further discusses novel perspectives to facilitate identification of critical molecular pathways that are central to neurodegeneration that hold the potential to develop neuroprotective and/or neurorestorative therapeutic strategies for PD. SIGNIFICANCE STATEMENT: A comprehensive review of PD pathophysiology is provided on the complex interplay of genetic and environmental factors and biologic processes that contribute to PD pathogenesis. This knowledge identifies new targets that could be leveraged into disease-modifying therapies to prevent or slow neurodegeneration in PD.
AB - Parkinson disease (PD) used to be considered a nongenetic condition. However, the identification of several autosomal dominant and recessive mutations linked to monogenic PD has changed this view. Clinically manifest PD is then thought to occur through a complex interplay between genetic mutations, many of which have incomplete penetrance, and environmental factors, both neuroprotective and increasing susceptibility, which variably interact to reach a threshold over which PD becomes clinically manifested. Functional studies of PD gene products have identified many cellular and molecular pathways, providing crucial insights into the nature and causes of PD. PD originates from multiple causes and a range of pathogenic processes at play, ultimately culminating in nigral dopaminergic loss and motor dysfunction. An in-depth understanding of these complex and possibly convergent pathways will pave the way for therapeutic approaches to alleviate the disease symptoms and neuroprotective strategies to prevent disease manifestations. This review is aimed at providing a comprehensive understanding of advances made in PD research based on leveraging genetic insights into the pathogenesis of PD. It further discusses novel perspectives to facilitate identification of critical molecular pathways that are central to neurodegeneration that hold the potential to develop neuroprotective and/or neurorestorative therapeutic strategies for PD. SIGNIFICANCE STATEMENT: A comprehensive review of PD pathophysiology is provided on the complex interplay of genetic and environmental factors and biologic processes that contribute to PD pathogenesis. This knowledge identifies new targets that could be leveraged into disease-modifying therapies to prevent or slow neurodegeneration in PD.
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U2 - 10.1124/pharmrev.120.000189
DO - 10.1124/pharmrev.120.000189
M3 - Review article
C2 - 34663684
AN - SCOPUS:85119307427
SN - 0031-6997
VL - 73
SP - 1204
EP - 1268
JO - Pharmacological reviews
JF - Pharmacological reviews
IS - 4
ER -