Human pregnancy zone protein stabilizes misfolded proteins including preeclampsia- and Alzheimer’s-associated amyloid beta peptide

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Pregnancy is a unique physiological state involving biological stresses that promote protein damage (misfolding) within the maternal body. Currently, little is known regarding how the maternal body copes with elevated protein misfolding in pregnancy. This is important, because the accumulation of misfolded proteins underlies many human disorders, including preeclampsia, a serious complication of pregnancy. In this study, we show that pregnancy zone protein (PZP) efficiently inhibits the aggregation of misfolded proteins, including the amyloid beta peptide, which forms plaques in preeclampsia and in Alzheimer’s disease. We propose that up-regulation of PZP is a major maternal adaptation that helps to maintain protein homeostasis during pregnancy. Moreover, pregnancy-independent up-regulation of PZP indicates that its chaperone function could be broadly important in humans.

Abstract

Protein misfolding underlies the pathology of a large number of human disorders, many of which are age-related. An exception to this is preeclampsia, a leading cause of pregnancy-associated morbidity and mortality in which misfolded proteins accumulate in body fluids and the placenta. We demonstrate that pregnancy zone protein (PZP), which is dramatically elevated in maternal plasma during pregnancy, efficiently inhibits in vitro the aggregation of misfolded proteins, including the amyloid beta peptide (Aβ) that is implicated in preeclampsia as well as with Alzheimer’s disease. The mechanism by which this inhibition occurs involves the formation of stable complexes between PZP and monomeric Aβ or small soluble Aβ oligomers formed early in the aggregation pathway. The chaperone activity of PZP is more efficient than that of the closely related protein alpha-2-macroglobulin (α ₂M), although the chaperone activity of α ₂M is enhanced by inducing its dissociation into PZP-like dimers. By immunohistochemistry analysis, PZP is found primarily in extravillous trophoblasts in the placenta. In severe preeclampsia, PZP-positive extravillous trophoblasts are adjacent to extracellular plaques containing Aβ, but PZP is not abundant within extracellular plaques. Our data support the conclusion that the up-regulation of PZP during pregnancy represents a major maternal adaptation that helps to maintain extracellular proteostasis during gestation in humans. We propose that overwhelming or disrupting the chaperone function of PZP could underlie the accumulation of misfolded proteins in vivo. Attempts to characterize extracellular proteostasis in pregnancy will potentially have broad-reaching significance for understanding disease-related protein misfolding.

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Preeclampsia, a disease of the maternal endothelium: the role of antiangiogenic factors and implications for later cardiovascular disease.

Camille Powe, Richard Levine, S Karumanchi (2011)

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PROSPER: An Integrated Feature-Based Tool for Predicting Protease Substrate Cleavage Sites

Jiangning Song, Hao Tan, Andrew Perry … (2012)

The ability to catalytically cleave protein substrates after synthesis is fundamental for all forms of life. Accordingly, site-specific proteolysis is one of the most important post-translational modifications. The key to understanding the physiological role of a protease is to identify its natural substrate(s). Knowledge of the substrate specificity of a protease can dramatically improve our ability to predict its target protein substrates, but this information must be utilized in an effective manner in order to efficiently identify protein substrates by in silico approaches. To address this problem, we present PROSPER, an integrated feature-based server for in silico identification of protease substrates and their cleavage sites for twenty-four different proteases. PROSPER utilizes established specificity information for these proteases (derived from the MEROPS database) with a machine learning approach to predict protease cleavage sites by using different, but complementary sequence and structure characteristics. Features used by PROSPER include local amino acid sequence profile, predicted secondary structure, solvent accessibility and predicted native disorder. Thus, for proteases with known amino acid specificity, PROSPER provides a convenient, pre-prepared tool for use in identifying protein substrates for the enzymes. Systematic prediction analysis for the twenty-four proteases thus far included in the database revealed that the features we have included in the tool strongly improve performance in terms of cleavage site prediction, as evidenced by their contribution to performance improvement in terms of identifying known cleavage sites in substrates for these enzymes. In comparison with two state-of-the-art prediction tools, PoPS and SitePrediction, PROSPER achieves greater accuracy and coverage. To our knowledge, PROSPER is the first comprehensive server capable of predicting cleavage sites of multiple proteases within a single substrate sequence using machine learning techniques. It is freely available at http://lightning.med.monash.edu.au/PROSPER/.

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Life on the edge: a link between gene expression levels and aggregation rates of human proteins.

C Dobson, Sebastian Pechmann, Michele Vendruscolo … (2007)

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Author and article information

Journal

Journal ID (nlm-ta): Proc Natl Acad Sci U S A

Journal ID (iso-abbrev): Proc. Natl. Acad. Sci. U.S.A

Journal ID (hwp): pnas

Journal ID (pmc): pnas

Journal ID (publisher-id): PNAS

Title: Proceedings of the National Academy of Sciences of the United States of America

Publisher: National Academy of Sciences

ISSN (Print): 0027-8424

ISSN (Electronic): 1091-6490

Publication date (Print): 26 March 2019

Publication date (Electronic): 8 March 2019

Publication date PMC-release: 8 March 2019

Volume: 116

Issue: 13

Pages: 6101-6110

Affiliations

[1] ^aIllawarra Health and Medical Research Institute , Wollongong, NSW 2522, Australia;

[2] ^bSchool of Chemistry and Molecular Bioscience, University of Wollongong , Wollongong, NSW 2522, Australia;

[3] ^cCentre for Misfolding Diseases, Department of Chemistry, University of Cambridge , CB2 1EW Cambridge, United Kingdom;

[4] ^dCenter for Perinatal Research, The Research Institute at Nationwide Children’s Hospital , Columbus, OH 43205;

[5] ^eSchool of Women’s and Children’s Health, University of New South Wales Medicine , Sydney, NSW 2052, Australia;

[6] ^fThe George Institute for Global Health, University of New South Wales, Sydney , NSW 2052, Australia;

[7] ^gWomen’s and Children’s Health, St. George Hospital , Kogarah, NSW 2217, Australia;

[8] ^hSchool of Psychology, University of Wollongong, Wollongong, NSW 2522, Australia;

[9] ⁱDepartment of Obstetrics and Gynecology, The Ohio State University College of Medicine , Columbus, OH 43210;

[10] ^jNational Institute for Health Research, Cambridge Biomedical Research Centre , CB2 0QQ Cambridge, United Kingdom;

[11] ^kDepartment of Obstetrics and Gynaecology, University of Cambridge , CB2 0SW Cambridge, United Kingdom;

[12] ^lCentre for Trophoblast Research, University of Cambridge , CB2 0QQ Cambridge, United Kingdom;

[13] ^mDepartment of Pediatrics, The Ohio State University College of Medicine , Columbus, OH 43210;

[14] ⁿDivision of Maternal-Fetal Medicine, Department of Obstetrics and Gynecology, The Ohio State University College of Medicine , Columbus, OH 43210;

[15] ^oCollege of Medicine and Public Health, Flinders University , Bedford Park, SA 5042, Australia

Author notes

³To whom correspondence should be addressed. Email: amy.wyatt@ 123456flinders.edu.au .

Edited by F. Ulrich Hartl, Max Planck Institute of Biochemistry, Martinsried, Germany, and approved February 6, 2019 (received for review October 10, 2018)

Author contributions: J.H.C., I.A.B., and A.R.W. designed research; J.H.C., J.R.K., R.Z.A., G.Z., A.B.-G., M.C., C.S.B., I.A.B., and A.R.W. performed research; J.H.C., J.R.K., R.Z.A., G.Z., A.B.-G., A.H., W.W., M.C., B.S.F.G., M.L.T., M.R., C.S.B., D.S.C.-J., C.M.D., M.R.W., I.A.B., and A.R.W. analyzed data; J.H.C., J.R.K., C.M.D., M.R.W., I.A.B., and A.R.W. wrote the paper; and A.H., W.W., B.S.F.G., M.L.T., and D.S.C.-J. coordinated the collection of blood plasma and clinical information used in this study.

¹Present address: Department of Obstetrics and Gynecology, University of Illinois at Chicago College of Medicine, Chicago, IL 60612.

²Present addresses: School of Biomedical Sciences and Pharmacy, Faculty of Health and Medicine, University of Newcastle, Callaghan, NSW 2308, Australia and Priority Research Centre for Cancer Research, Innovation & Translation, Faculty of Health & Medicine, Hunter Medical Research Institute, New Lambton Heights, NSW 2305, Australia.

Author information

D. Stephen Charnock-Jones http://orcid.org/0000-0002-2936-4890

Amy R. Wyatt http://orcid.org/0000-0002-3650-2438

Article

Publisher ID: 201817298

DOI: 10.1073/pnas.1817298116

PMC ID: 6442606

PubMed ID: 30850528

SO-VID: a6808876-5c4d-4018-8008-252f48535702

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This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).

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Pages: 10

Funding

Funded by: Department of Health | National Health and Medical Research Council (NHMRC) 501100000925

Award ID: APP1099991

Award Recipient : Amanda Henry Award Recipient : Amy R Wyatt

Funded by: Faculty of Science, Medicine and Public Health, University of Wollongong

Award ID: N/A

Award Recipient : Jordan H Cater Award Recipient : Janet R Kumita Award Recipient : Ana Bernardo-Gancedo Award Recipient : Brin S. F. Grenyer Award Recipient : Michelle L Townsend Award Recipient : Marie Ranson Award Recipient : D. Stephen Charnock-Jones Award Recipient : Christopher M. Dobson Award Recipient : Mark R. Wilson Award Recipient : Irina A Buhimschi Award Recipient : Amy R Wyatt

Funded by: Centre for Medical and Molecular Biosciences

Award ID: N/A

Funded by: Australian Institute of Nuclear Science and Engineering (AINSE) 501100001023

Award ID: N/A

Award Recipient : Jordan H Cater

Funded by: Commonwealth Government of Australia

Award ID: N/A

Funded by: Illawarra Health and Medical Research Institute

Award ID: N/A

Funded by: Eunice Kennedy Shriver National Institute of Child Health and Human Development

Award ID: RO1 HD 04732

Funded by: Cambridge Centre for Misfolding Diseases

Award ID: N/A

Funded by: Wellcome Trust Programme Grant

Award ID: 094425/Z/10/Z

Funded by: NIHR Cambridge Comprehensive Biomedical Research Centre

Award ID: N/A

Funded by: Department of Health | National Health and Medical Research Council (NHMRC) 501100000925

Human pregnancy zone protein stabilizes misfolded proteins including preeclampsia- and Alzheimer’s-associated amyloid beta peptide

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Most cited references 89

Preeclampsia, a disease of the maternal endothelium: the role of antiangiogenic factors and implications for later cardiovascular disease.

PROSPER: An Integrated Feature-Based Tool for Predicting Protease Substrate Cleavage Sites

Life on the edge: a link between gene expression levels and aggregation rates of human proteins.

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