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Literature DB >> 28747436

The Alzheimer's disease-protective CD33 splice variant mediates adaptive loss of function via diversion to an intracellular pool.

Shoib S Siddiqui^1,2, Stevan A Springer^1,2, Andrea Verhagen^1,2, Venkatasubramaniam Sundaramurthy¹, Frederico Alisson-Silva^1,2, Weiping Jiang³, Pradipta Ghosh², Ajit Varki^4,2.

Abstract

The immunomodulatory receptor Siglec-3/CD33 influences risk for late-onset Alzheimer's disease (LOAD), an apparently human-specific post-reproductive disease. CD33 generates two splice variants: a full-length CD33M transcript produced primarily by the "LOAD-risk" allele and a shorter CD33m isoform lacking the sialic acid-binding domain produced primarily from the "LOAD-protective" allele. An SNP that modulates CD33 splicing to favor CD33m is associated with enhanced microglial activity. Individuals expressing more protective isoform accumulate less brain β-amyloid and have a lower LOAD risk. How the CD33m isoform increases β-amyloid clearance remains unknown. We report that the protection by the CD33m isoform may not be conferred by what it does but, rather, from what it cannot do. Analysis of blood neutrophils and monocytes and a microglial cell line revealed that unlike CD33M, the CD33m isoform does not localize to cell surfaces; instead, it accumulates in peroxisomes. Cell stimulation and activation did not mobilize CD33m to the surface. Thus, the CD33m isoform may neither interact directly with amyloid plaques nor engage in cell-surface signaling. Rather, production and localization of CD33m in peroxisomes is a way of diminishing the amount of CD33M and enhancing β-amyloid clearance. We confirmed intracellular localization by generating a CD33m-specific monoclonal antibody. Of note, CD33 is the only Siglec with a peroxisome-targeting sequence, and this motif emerged by convergent evolution in toothed whales, the only other mammals with a prolonged post-reproductive lifespan. The CD33 allele that protects post-reproductive individuals from LOAD may have evolved by adaptive loss-of-function, an example of the less-is-more hypothesis.

Entities: Chemical Disease Gene Species

Keywords: Alzheimer disease; CD33; Siglec-3; alternative splicing; intracellular trafficking; peroxisome; sialic acid

Mesh：

Substances：

Year: 2017 PMID： 28747436 PMCID： PMC5602391 DOI： 10.1074/jbc.M117.799346

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

66 in total

Review 1. Import of proteins into peroxisomes and other microbodies.

Authors: M J de Hoop; G Ab
Journal: Biochem J Date: 1992-09-15 Impact factor: 3.857

Review 2. Siglec-mediated regulation of immune cell function in disease.

Authors: Matthew S Macauley; Paul R Crocker; James C Paulson
Journal: Nat Rev Immunol Date: 2014-09-19 Impact factor: 53.106

Review 3. Siglecs--the major subfamily of I-type lectins.

Authors: Ajit Varki; Takashi Angata
Journal: Glycobiology Date: 2005-07-13 Impact factor: 4.313

4. Association of CD33 polymorphism rs3865444 with Alzheimer's disease pathology and CD33 expression in human cerebral cortex.

Authors: Douglas G Walker; Alexis M Whetzel; Geidy Serrano; Lucia I Sue; Thomas G Beach; Lih-Fen Lue
Journal: Neurobiol Aging Date: 2014-10-02 Impact factor: 4.673

5. Resistance to HIV-1 infection in caucasian individuals bearing mutant alleles of the CCR-5 chemokine receptor gene.

Authors: M Samson; F Libert; B J Doranz; J Rucker; C Liesnard; C M Farber; S Saragosti; C Lapoumeroulie; J Cognaux; C Forceille; G Muyldermans; C Verhofstede; G Burtonboy; M Georges; T Imai; S Rana; Y Yi; R J Smyth; R G Collman; R W Doms; G Vassart; M Parmentier
Journal: Nature Date: 1996-08-22 Impact factor: 49.962

6. Mechanisms underlying the rapid peroxisome proliferator-activated receptor-γ-mediated amyloid clearance and reversal of cognitive deficits in a murine model of Alzheimer's disease.

Authors: Shweta Mandrekar-Colucci; J Colleen Karlo; Gary E Landreth
Journal: J Neurosci Date: 2012-07-25 Impact factor: 6.167

7. Intracellular pools of transferrin receptors result from constitutive internalization of unoccupied receptors.

Authors: R S Ajioka; J Kaplan
Journal: Proc Natl Acad Sci U S A Date: 1986-09 Impact factor: 11.205

8. Common variants at MS4A4/MS4A6E, CD2AP, CD33 and EPHA1 are associated with late-onset Alzheimer's disease.

Authors: Adam C Naj; Gyungah Jun; Gary W Beecham; Li-San Wang; Badri Narayan Vardarajan; Jacqueline Buros; Paul J Gallins; Joseph D Buxbaum; Gail P Jarvik; Paul K Crane; Eric B Larson; Thomas D Bird; Bradley F Boeve; Neill R Graff-Radford; Philip L De Jager; Denis Evans; Julie A Schneider; Minerva M Carrasquillo; Nilufer Ertekin-Taner; Steven G Younkin; Carlos Cruchaga; John S K Kauwe; Petra Nowotny; Patricia Kramer; John Hardy; Matthew J Huentelman; Amanda J Myers; Michael M Barmada; F Yesim Demirci; Clinton T Baldwin; Robert C Green; Ekaterina Rogaeva; Peter St George-Hyslop; Steven E Arnold; Robert Barber; Thomas Beach; Eileen H Bigio; James D Bowen; Adam Boxer; James R Burke; Nigel J Cairns; Chris S Carlson; Regina M Carney; Steven L Carroll; Helena C Chui; David G Clark; Jason Corneveaux; Carl W Cotman; Jeffrey L Cummings; Charles DeCarli; Steven T DeKosky; Ramon Diaz-Arrastia; Malcolm Dick; Dennis W Dickson; William G Ellis; Kelley M Faber; Kenneth B Fallon; Martin R Farlow; Steven Ferris; Matthew P Frosch; Douglas R Galasko; Mary Ganguli; Marla Gearing; Daniel H Geschwind; Bernardino Ghetti; John R Gilbert; Sid Gilman; Bruno Giordani; Jonathan D Glass; John H Growdon; Ronald L Hamilton; Lindy E Harrell; Elizabeth Head; Lawrence S Honig; Christine M Hulette; Bradley T Hyman; Gregory A Jicha; Lee-Way Jin; Nancy Johnson; Jason Karlawish; Anna Karydas; Jeffrey A Kaye; Ronald Kim; Edward H Koo; Neil W Kowall; James J Lah; Allan I Levey; Andrew P Lieberman; Oscar L Lopez; Wendy J Mack; Daniel C Marson; Frank Martiniuk; Deborah C Mash; Eliezer Masliah; Wayne C McCormick; Susan M McCurry; Andrew N McDavid; Ann C McKee; Marsel Mesulam; Bruce L Miller; Carol A Miller; Joshua W Miller; Joseph E Parisi; Daniel P Perl; Elaine Peskind; Ronald C Petersen; Wayne W Poon; Joseph F Quinn; Ruchita A Rajbhandary; Murray Raskind; Barry Reisberg; John M Ringman; Erik D Roberson; Roger N Rosenberg; Mary Sano; Lon S Schneider; William Seeley; Michael L Shelanski; Michael A Slifer; Charles D Smith; Joshua A Sonnen; Salvatore Spina; Robert A Stern; Rudolph E Tanzi; John Q Trojanowski; Juan C Troncoso; Vivianna M Van Deerlin; Harry V Vinters; Jean Paul Vonsattel; Sandra Weintraub; Kathleen A Welsh-Bohmer; Jennifer Williamson; Randall L Woltjer; Laura B Cantwell; Beth A Dombroski; Duane Beekly; Kathryn L Lunetta; Eden R Martin; M Ilyas Kamboh; Andrew J Saykin; Eric M Reiman; David A Bennett; John C Morris; Thomas J Montine; Alison M Goate; Deborah Blacker; Debby W Tsuang; Hakon Hakonarson; Walter A Kukull; Tatiana M Foroud; Jonathan L Haines; Richard Mayeux; Margaret A Pericak-Vance; Lindsay A Farrer; Gerard D Schellenberg
Journal: Nat Genet Date: 2011-04-03 Impact factor: 38.330

9. Inactivating mutations in NPC1L1 and protection from coronary heart disease.

Authors: Nathan O Stitziel; Hong-Hee Won; Alanna C Morrison; Gina M Peloso; Ron Do; Leslie A Lange; Pierre Fontanillas; Namrata Gupta; Stefano Duga; Anuj Goel; Martin Farrall; Danish Saleheen; Paola Ferrario; Inke König; Rosanna Asselta; Piera A Merlini; Nicola Marziliano; Maria Francesca Notarangelo; Ursula Schick; Paul Auer; Themistocles L Assimes; Muredach Reilly; Robert Wilensky; Daniel J Rader; G Kees Hovingh; Thomas Meitinger; Thorsten Kessler; Adnan Kastrati; Karl-Ludwig Laugwitz; David Siscovick; Jerome I Rotter; Stanely L Hazen; Russell Tracy; Sharon Cresci; John Spertus; Rebecca Jackson; Stephen M Schwartz; Pradeep Natarajan; Jacy Crosby; Donna Muzny; Christie Ballantyne; Stephen S Rich; Christopher J O'Donnell; Goncalo Abecasis; Shamil Sunaev; Deborah A Nickerson; Julie E Buring; Paul M Ridker; Daniel I Chasman; Erin Austin; Iftikhar J Kullo; Peter E Weeke; Christian M Shaffer; Lisa A Bastarache; Joshua C Denny; Dan M Roden; Colin Palmer; Panos Deloukas; Dan-Yu Lin; Zheng-zheng Tang; Jeanette Erdmann; Heribert Schunkert; John Danesh; Jaume Marrugat; Roberto Elosua; Diego Ardissino; Ruth McPherson; Hugh Watkins; Alex P Reiner; James G Wilson; David Altshuler; Richard A Gibbs; Eric S Lander; Eric Boerwinkle; Stacey Gabriel; Sekar Kathiresan
Journal: N Engl J Med Date: 2014-11-12 Impact factor: 91.245

10. Distribution and medical impact of loss-of-function variants in the Finnish founder population.

Authors: Elaine T Lim; Peter Würtz; Aki S Havulinna; Priit Palta; Taru Tukiainen; Karola Rehnström; Tõnu Esko; Reedik Mägi; Michael Inouye; Tuuli Lappalainen; Yingleong Chan; Rany M Salem; Monkol Lek; Jason Flannick; Xueling Sim; Alisa Manning; Claes Ladenvall; Suzannah Bumpstead; Eija Hämäläinen; Kristiina Aalto; Mikael Maksimow; Marko Salmi; Stefan Blankenberg; Diego Ardissino; Svati Shah; Benjamin Horne; Ruth McPherson; Gerald K Hovingh; Muredach P Reilly; Hugh Watkins; Anuj Goel; Martin Farrall; Domenico Girelli; Alex P Reiner; Nathan O Stitziel; Sekar Kathiresan; Stacey Gabriel; Jeffrey C Barrett; Terho Lehtimäki; Markku Laakso; Leif Groop; Jaakko Kaprio; Markus Perola; Mark I McCarthy; Michael Boehnke; David M Altshuler; Cecilia M Lindgren; Joel N Hirschhorn; Andres Metspalu; Nelson B Freimer; Tanja Zeller; Sirpa Jalkanen; Seppo Koskinen; Olli Raitakari; Richard Durbin; Daniel G MacArthur; Veikko Salomaa; Samuli Ripatti; Mark J Daly; Aarno Palotie
Journal: PLoS Genet Date: 2014-07-31 Impact factor: 5.917

23 in total

Review 1. Harnessing Immunoproteostasis to Treat Neurodegenerative Disorders.

Authors: Todd E Golde
Journal: Neuron Date: 2019-03-20 Impact factor: 17.173

2. Pseudogene-Mediated Gene Conversion After CRISPR-Cas9 Editing Demonstrated by Partial CD33 Conversion with SIGLEC22P.

Authors: Benjamin C Shaw; Steven Estus
Journal: CRISPR J Date: 2021-09-23

Review 3. Genomics of Alzheimer's disease implicates the innate and adaptive immune systems.

Authors: Yihan Li; Simon M Laws; Luke A Miles; James S Wiley; Xin Huang; Colin L Masters; Ben J Gu
Journal: Cell Mol Life Sci Date: 2021-10-27 Impact factor: 9.207

4. Genome-wide transcriptome analysis identifies novel dysregulated genes implicated in Alzheimer's pathology.

Authors: Kwangsik Nho; Kelly Nudelman; Mariet Allen; Angela Hodges; Sungeun Kim; Shannon L Risacher; Liana G Apostolova; Kuang Lin; Katie Lunnon; Xue Wang; Jeremy D Burgess; Nilüfer Ertekin-Taner; Ronald C Petersen; Lisu Wang; Zhenhao Qi; Aiqing He; Isaac Neuhaus; Vishal Patel; Tatiana Foroud; Kelley M Faber; Simon Lovestone; Andrew Simmons; Michael W Weiner; Andrew J Saykin
Journal: Alzheimers Dement Date: 2020-08-05 Impact factor: 21.566

9. In-Pero: Exploiting Deep Learning Embeddings of Protein Sequences to Predict the Localisation of Peroxisomal Proteins.

Authors: Marco Anteghini; Vitor Martins Dos Santos; Edoardo Saccenti
Journal: Int J Mol Sci Date: 2021-06-15 Impact factor: 5.923

10. THE EXPOSOME IN HUMAN EVOLUTION: FROM DUST TO DIESEL.

Authors: Benjamin C Trumble; Caleb E Finch
Journal: Q Rev Biol Date: 2019-12 Impact factor: 6.750