open access publication

Article, 2024

Comprehensive proteomics of CSF, plasma, and urine identify DDC and other biomarkers of early Parkinson’s disease

Acta Neuropathologica, ISSN 0001-6322, 1432-0533, Volume 147, 1, Page 52, 10.1007/s00401-024-02706-0

Contributors

Rutledge, Jarod Evert 0000-0001-7790-2801 (Corresponding author) [1] Lehallier, Benoit 0000-0001-7452-3785 [1] Zarifkar, Pardis 0000-0002-7835-7099 [1] [2] Losada, Patricia Moran [1] Shahid-Besanti, Marian [1] Western, Dan [3] Gorijala, Priyanka 0000-0001-7109-7362 [3] Ryman, Sephira G 0000-0002-1758-3391 [1] [4] Yutsis, Maya V [1] Deutsch, Gayle Karen 0000-0001-6886-4356 [1] Mormino, Elizabeth C 0000-0002-4542-6537 [1] Trelle, Alexandra Nicole 0000-0003-2837-8753 [1] Wagner, Anthony David 0000-0003-0624-4543 [1] Kerchner, Geoffrey Allen 0000-0001-7674-0695 [1] [5] Tian, Lili 0000-0002-5893-0169 [1] Cruchaga, Carlos C 0000-0002-0276-2899 [3] Henderson, Victor W 0000-0003-1198-9240 [1] Montine, Thomas Jude [1] Borghammer, Per 0000-0001-6391-8052 [6] Wyss-Coray, Tony 0000-0001-5893-0831 (Corresponding author) [1] Poston, Kathleen Lombard 0000-0003-3424-7143 (Corresponding author) [1]

Affiliations

  1. [1] Stanford University
    2. [NORA names: United States; America, North; OECD];
  2. [2] Aarhus University
    3. [NORA names: AU Aarhus University; University; Denmark; Europe, EU; Nordic; OECD];
  3. [3] Washington University in St. Louis
    4. [NORA names: United States; America, North; OECD];
  4. [4] Mind Research Network
    5. [NORA names: United States; America, North; OECD];
  5. [5] Roche Medical, Basel, Switzerland
    6. [NORA names: Switzerland; Europe, Non-EU; OECD];

Abstract

Parkinson’s disease (PD) starts at the molecular and cellular level long before motor symptoms appear, yet there are no early-stage molecular biomarkers for diagnosis, prognosis prediction, or monitoring therapeutic response. This lack of biomarkers greatly impedes patient care and translational research—l-DOPA remains the standard of care more than 50 years after its introduction. Here, we performed a large-scale, multi-tissue, and multi-platform proteomics study to identify new biomarkers for early diagnosis and disease monitoring in PD. We analyzed 4877 cerebrospinal fluid, blood plasma, and urine samples from participants across seven cohorts using three orthogonal proteomics methods: Olink proximity extension assay, SomaScan aptamer precipitation assay, and liquid chromatography–mass spectrometry proteomics. We discovered that hundreds of proteins were upregulated in the CSF, blood, or urine of PD patients, prodromal PD patients with DAT deficit and REM sleep behavior disorder or anosmia, and non-manifesting genetic carriers of LRRK2 and GBA mutations. We nominate multiple novel hits across our analyses as promising markers of early PD, including DOPA decarboxylase (DDC), also known as l-aromatic acid decarboxylase (AADC), sulfatase-modifying factor 1 (SUMF1), dipeptidyl peptidase 2/7 (DPP7), glutamyl aminopeptidase (ENPEP), WAP four-disulfide core domain 2 (WFDC2), and others. DDC, which catalyzes the final step in dopamine synthesis, particularly stands out as a novel hit with a compelling mechanistic link to PD pathogenesis. DDC is consistently upregulated in the CSF and urine of treatment-naïve PD, prodromal PD, and GBA or LRRK2 carrier participants by all three proteomics methods. We show that CSF DDC levels correlate with clinical symptom severity in treatment-naïve PD patients and can be used to accurately diagnose PD and prodromal PD. This suggests that urine and CSF DDC could be a promising diagnostic and prognostic marker with utility in both clinical care and translational research.

Keywords

AADC, CSF, DAT, DDC levels, DOPA, ENPEP, GBA, GBA mutations, LRRK2, Olink, Olink proximity extension assay, PD pathogenesis, PD patients, Parkinson, Parkinson's disease, REM, REM sleep behavior disorder, WAP, WAP four-disulfide core domain 2, acid decarboxylase, aminopeptidase, analysis, anosmia, assay, behavioral disorders, biomarkers, blood, blood plasma, care, carrier participation, cellular level, cerebrospinal fluid, clinical care, clinical symptom severity, cohort, comprehensive proteomics, decarboxylase, deficits, diagnose PD, diagnosis, disease, disease monitoring, disorders, domain 2, dopa decarboxylase, dopamine, dopamine synthesis, early PD, early diagnosis, extension assay, factor 1, fluid, glutamyl, glutamyl aminopeptidase, hits, introduction, lack, lack of biomarkers, large-scale, levels, markers, method, molecular biomarkers, monitoring, monitoring therapeutic response, motor, motor symptoms, multi-tissue, mutations, participants, pathogenesis, patient care, patients, plasma, precipitation assay, prediction, prodromal PD, prodromal PD patients, prognosis, prognosis prediction, prognostic marker, protein, proteomic methods, proteomic studies, proteomics, proximity extension assay, research, response, samples, severity, sleep behavior disorder, standards, study, sulfatase-modifying factor 1, symptom severity, symptoms, synthesis, therapeutic response, translational research, urine, urine samples, years

Funders

  • Takeda (United States)
  • Meso Scale Discovery (United States)
  • Eli Lilly (United States)
  • McKnight Foundation
  • United States Department of Veterans Affairs
  • National Institute of Neurological Disorders and Stroke
  • Lundbeck (Denmark)
  • National Institute on Aging
  • Bristol-Myers Squibb (United States)
  • Biogen (United States)
  • Michael J. Fox Foundation
  • Alzheimer's Association
  • Sanofi (United States)
  • Pfizer (United States)
  • General Electric (United States)
  • Roche (United States)

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