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Translational Neurodegeneration
Published in: Translational Neurodegeneration 1/2013

Open Access 01-12-2013 | Review

What does complement do in Alzheimer’s disease? Old molecules with new insights

Authors: Yong Shen, Libang Yang, Rena Li

Published in: Translational Neurodegeneration | Issue 1/2013

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Abstract

Increasing evidence suggests that inflammatory and immune components in brain are important in Alzheimer’s disease (AD) and anti-inflammatory and immunotherapeutic approaches may be amenable to AD treatment. It is known that complement activation occurs in the brain of patients with AD, and contributes to a local inflammatory state development which is correlated with cognitive impairment. In addition to the complement’s critical role in the innate immune system recognizing and killing, or targeting for destruction, complement proteins can also interact with cell surface receptors to promote a local inflammatory response and contributes to the protection and healing of the host. On the other hand, complement activation also causes inflammation and cell damage as an essential immune function to eliminate cell debris and potentially toxic protein aggregates. It is the balance of these seemingly competing events that influences the ultimate state of neuronal function. Our mini review will be focusing on the unique molecular interactions happening in the AD development, the functional outcomes of those interactions, as well as the contribution of each element to AD.
Literature
1.
Eikelenboom P, Stam FC: Immunoglobulins and complement factors in senile plaques. Acta Neuropath Berl 1982, 57: 239-242.CrossRef
2.
Haga S, Ikeda K, Sato M, Ishii T: Synthetic Alzheimer amyloid beta/A4 peptides enhance production of complement C3 component by cultured microglial cells. Brain Res 1993, 601: 88-94.PubMedCrossRef
3.
Griffin WS, Sheng JG, Roberts GW, Mrak RE: Interleukin-1 expression in different plaque types in Alzheimer’s disease: significance in plaque evolution. J Neuropath Exp Neurol 1995, 54: 276-281.PubMedCrossRef
4.
McGeer PL, Akiyama H, Itagaki S, McGeer EG: Activation of the classical complement pathway in brain tissue of Alzheimer patients. Neurosci Lett 1989, 107: 341-346.PubMedCrossRef
5.
Rogers J, Cooper N, Webster S, Schultz J, McGeer P, Styren SD, Civin WH, Brachova L, Bradt B, Ward P, Lieberburg I: Complement activation by β-amyloid in Alzheimer’s disease. Proc Natl Acad Sci USA 1992, 89: 10016-10020.PubMedCentralPubMedCrossRef
6.
Shen Y, Sullivan T, Meri S, Shiosaki K, Lin CW: Induced expression of neuronal membrane attack complex (MAC) and cell death by beta-amyloid peptide. Brain Res 1998, 796: 187-197.PubMedCrossRef
7.
Yang LB, Li R, Meri S, Rogers J, Shen Y: Deficiency of complement defense protein, CD59, may contribute to neurodegeneration of Alzheimer’s brains. J Neurosci 2000, 20: 1600-1618.
8.
Shen Y, Lue L, Yang L, Roher A, Kuo Y, Stromeyer R, Goux WJ, Lee V, Johnson GV, Webster SD, Cooper NR, Bradt B, Rogers J: Complement activation by neurofibrillary tangles in Alzheimer’s disease. Neuroscience letter 2001, 305: 165-168.CrossRef
9.
Broussard GJ, Mytar J, Li RC, Klapstein GJ: The role of inflammatory processes in Alzheimer’s disease. Inflammopharmacology 2012, 20: 109-26.PubMedCrossRef
10.
Luo XG, Chen SD: The changing phenotype of microglia from homeostasis to disease. Transl Neurodegeneration 2012, 1: 9.CrossRef
11.
Price DL, Sisodia SS: Toxicity of synthetic A beta peptide and modeling of Alzheimer’s disease. Ann Neurosci 1998, 13: 623-625.
12.
Selkoe DJ, Yamazaki T, Citron M, Podlisny MB, Koo EH, Teplow DB, Haass C: The role of APP processing and trafficking pathways in the formation of amyloid beta-protein. Ann NY Acad Sci 1996, 777: 57-64.PubMedCrossRef
13.
14.
Di Carlo M, Giacomazza D, San Biagio PL: Alzheimer’s disease: biological aspects, therapeutic perspectives and diagnostic tools. J Phys: Condens Matter 2012, 24: 244102.
15.
Medeiros R, Chabrier MA, LaFerla FM: Elucidating the triggers, progression, and effects of Alzheimer’s disease. J Alzheimers Dis 2013, 33(Suppl 1):S195-210.PubMed
16.
Ashall F, Goate AM: Role of the beta-amyloid precursor protein in Alzheimer’s disease. Trends in Biochem Sci 1994, 19: 42-46.CrossRef
17.
Honjo K, Black SE, Verhoeff NP: Alzheimer’s disease, cerebrovascular disease, and the β- amyloid cascade. Can J Neurol Sci 2012, 39: 712-28.PubMedCrossRef
18.
Afagh A, Cummings B, Cribbs D, Cotman CW, Tenner AJ: Localization and cell association of C1q in Alzheimer’s disease brain. Exp Neurol 1996, 138: 22-32.PubMedCrossRef
19.
Veerhuis R, Janssen I, Hoozemans JJ, De Groot CJ, Hack CE, Eikelenboom P: Complement C1INH expression in Alzheimer’s disease. Acta Neuropathol (Berl) 1998, 96: 287-296.CrossRef
20.
Walker DG, McGeer PL: Complement gene expression in human brain: comparison between normal and Alzheimer disease cases. Mol Brain Res 1992, 14: 109-116.PubMedCrossRef
21.
Webster S, Lue LF, Brachova L, Tenner AJ, McGeer PL, Terai K, Walker DG, Bradt B, Cooper NR, Rogers J: Molecular and cellular characterization of the membrane attack complex, C5b-9, in Alzheimer’s disease. Neurobiol Aging 1997, 18: 415-421.PubMedCrossRef
22.
Azizi G, Mirshafiey A: The potential role of proinflammatory and antiinflammatory cytokines in Alzheimer disease pathogenesis. Immunopharmacol Immunotoxicol 2012, 34: 881-95.PubMedCrossRef
23.
Michaud M, Balardy L, Moulis G, Gaudin C, Peyrot C, Vellas B, Cesari M, Nourhashemi F: Proinflammatory cytokines, aging, and age-related diseases. J Am Med Dir Assoc 2013. Doi: 10.1016/j
24.
Quintanilla RA, Orellana JA, von Bernhardi R: Understanding risk factors for Alzheimer’s disease: interplay of neuroinflammation, connexin-based communication and oxidative stress. Arch Med Res 2012, 43: 632-44.PubMedCrossRef
25.
Eikelenboom P, van Exel E, Veerhuis R, Rozemuller AJ, van Gool WA, Hoozemans JJ: Innate immunity and the etiology of late-onset Alzheimer’s disease. Neurodegener Dis 2012, 10: 271-3.PubMedCrossRef
26.
Shen Y, Li R, McGeer E, McGeer P: Neuronal expression of mRNAs for complement proteins of the classical pathway in Alzheimer’s brain. Brain Res 1997, 769: 391-395.PubMedCrossRef
27.
McGeer PL, Walker DG, Akiyama H, Kawamata AL, Guan AL, Parker CJ, Okada N, McGeer EG: Detection of the membrane inhibitor of reactive lysis (CD59) in diseased neurons of Alzheimer’s brain. Brain Res 1991, 544: 315-319.PubMedCrossRef
28.
Timmer NM, Kuiperij HB, de Waal RM, Verbeek MM: Do amyloid β-associated factors co-deposit with Aβ in mouse models for Alzheimer’s disease? J Alzheimers Dis 2010, 22: 345-55.PubMed
29.
O’Barr SA, Caguioa J, Gruol D, Perkins G, Ember JA, Hugli T, Cooper NR: Neuronal expression of a functional receptor for the C5a complement activation fragment. J Immunol 2001, 166: 4154-4162.PubMedCrossRef
30.
Singhrao SK, Neal JW, Rushmere NK, Morgan BP, Gasque P: Spontaenous classical pathway activation and deficiency of membrane regulators render human neurons suseptible to complement lysis. Am J Pathol 2000, 157: 905-918.PubMedCentralPubMedCrossRef
31.
Walker DG, Yasuhara O, Patston PA, McGeer EG, McGeer PL: Complement C1INH is produced by brain tissue and is cleaved in Alzheimer disease. Brain Res 1995, 675: 75-82.PubMedCrossRef
32.
Breitner JC, Gau BA, Welsh KA, Plassman BL, McDonald WM, Helms MJ, Anthony JC: Inverse association of anti-inflammatory treatments and Alzheimer’s disease: initial results of a co-twin control study. Neurology 1994, 44: 227-232.PubMedCrossRef
33.
McGeer PL, Schuler M, McGeer EG: Arthritis and anti-inflammatory agents as possible protective factors for Alzheimer’s disease: a review of 17 epidemiologic studies. Neurology 1996, 47: 425-432.PubMedCrossRef
34.
Rich JB, Rasmusson DX, Folstein MF, Carson KA, Kawas C, Brandt J: Nonsteroidal anti-inflammatory drugs in Alzheimer’s disease. Neurology 1995, 45: 51-55.PubMedCrossRef
35.
Rogers J, Kirby L, Hempelman S, Berry DL, McGeer PL, Kaszniak AW, Zalinski J, Cofield M, Mansukhani L, Wilson P, Kogan F: Clinical trial of indomethacin in Alzheimer’s disease. Neurology 1993, 43: 1609-1611.PubMedCrossRef
36.
Rubio-Perez JM, Morillas-Ruiz JM: A review: inflammatory process in Alzheimer’s disease, role of cytokines. Sci World J 2012, 2012: 756357.CrossRef
37.
Heneka MT, Kummer MP, Weggen S, Bulic B, Multhaup G, Münter L, Hüll M, Pflanzner T, Pietrzik CU: Molecular mechanisms and therapeutic application of NSAIDs and derived compounds in Alzheimer’s disease. Curr Alzheimer Res 2011, 8: 115-31.PubMedCrossRef
38.
Webster SD, Galvan MD, Ferran E, Garzon-Rodriguez W, Glabe CG, Tenner AJ: Antibody-mediated phagocytosis of the amyloid beta-peptide in microglia is differentially modulated by C1q. J Immunol 2001, 166: 7496-7503.PubMedCrossRef
39.
Eikelenboom P, Zhan S, van Gool W, Allsop D: Inflammatory mechanisms in Alzheimer’s disease. Trends Pharmacol Sci 1994, 15: 447-450.PubMedCrossRef
40.
Rollins SA, Zhao J, Ninomiya H, Sims PJ: Inhibition of homologous complement by CD59 is mediated by a species-selective recognition conferred through binding to C8 within C5b-8 or C9 within C5b-9. J Immunol 1991, 146: 2345-51.PubMed
41.
Storch MK, Piddlesden S, Haltia M, Iivanainen M, Morgan P, Lassmann H: Multiple sclerosis: in situ evidence for antibody- and complement-mediated demyelination. Ann Neurol 1998, 43: 465-471.PubMedCrossRef
42.
Jiang H, Burdick D, Glabe CG, Cotman CW, Tenner AJ: Beta-Amyloid activates complement by binding to a specific region of the collagen-like domain of the C1q A chain. J Immunol 1994, 152: 5050-5059.PubMed
43.
Velazquez P, Cribbs DH, Poulos TL, Tenner AJ: Aspartate residue 7 in amyloid beta-protein is critical for classical complement pathway activation: implications for Alzheimer’s disease pathogenesis. Nat Med 1997, 3: 77-79.PubMedCrossRef
44.
Ishii T, Haga S, Kametani F: Presence of immunoglobulins and complements in the amyloid plaques in the brain of patients with Alzheimer’s disease. In Immunology and Alzheimer’s disease. Edited by: Pouplard-Barthelaix A, Emile J, Christen Y. Berlin: Springer-Verlag; 1988:17-29.CrossRef
45.
Shen Y, Meri S: Yin and Yang: complement activation and regulation in Alzheimer’s disease. Prog Neurobiol 2003, 70: 463-72.PubMedCrossRef
46.
Duan Y, Dong S, Gu F, Hu Y, Zhao Z: Advances in the pathogenesis of Alzheimer’s disease: focusing on tau-mediated neurodegeneration. Transl Neurodegeneration 2012, 1: 24.CrossRef
47.
Shen Y, Halperin JA, Lee CM: Complement-mediated neurotoxicity is regulated by homologous restriction. Brain Res 1995, 671: 282-292.PubMedCrossRef
48.
Gasque P, Chan P, Fontaine M, Ischenko A, Lamacz M, Gotze O, Morgan BP: Identification and characterization of the complement C5a anaphylatoxin receptor on human astrocytes. J Immunol 1995, 155: 4882-4889.PubMed
49.
50.
Mulligan MS, Yeh CG, Rudolph AR, Ward PA: Protective effects of soluble CR1 in complement and neutrophil-mediated tissue injury. J Immunol 1992, 148: 479-485.
51.
Van Beek J, Bernaudin M, Petit E, Gasque P, Nouvelot A, MacKenzie ET, Fontaine M: Expression of receptors for complement anaphylatoxins C3a and C5a following permanent focal cerebral ischemia in the mouse. Exp Neurol 2000, 161: 373-382.PubMedCrossRef
52.
Vedeler CA, Matre R: Peripheral nerve CR1 express in situ cofactor activity for degradation of C3b. J Neuroimmunol 1990, 26: 51-6.PubMedCrossRef
53.
Kolev MV, Ruseva MM, Harris CL, Morgan BP, Donev RM: Implication of complement system and its regulators in Alzheimer’s disease. Curr Neuropharmacol 2009, 7: 1-8.PubMedCentralPubMedCrossRef
54.
Veerhuis R: Histological and direct evidence for the role of complement in the neuroinflammation of AD. Curr Alzheimer Res 2011, 8: 34-58.PubMedCrossRef
55.
Johnson S, Lampert-Etchells M, Pasinetti GM, Rozovsky I, Finch CE: Complement mRNA in the mammalian brain: responses to Alzheimer’s disease and experimental brain lesioning. Neurobiol Aging 1992, 13: 641-648.PubMedCrossRef
56.
Singhrao SK, Neal JW, Morgan BP, Gasque P: Increased complement biosynthesis by microglia and complement activation on neurons in Huntigton’s disease. exp neurol 1999, 159: 362-376.PubMedCrossRef
57.
Rogers J, O’Barr S: Inflammatory mediators in Alzheimer’s disease. In Molecular Mechanisms of Dementia. Edited by: Tanzi R, Wasco W, Totowa NJ. Totowa, NJ: Human Press Inc; 1997:177-198.
58.
59.
Benoit ME, Hernandez MX, Dinh ML, Benavente F, Vasquez O, Tenner AJ: C1q-induced LRP1B and GPR6 proteins expressed early in Alzheimer disease mouse models, are essential for the C1q-mediated protection against amyloid-β neurotoxicity. J Biol Chem 2013, 288: 654-65.PubMedCentralPubMedCrossRef
60.
Webster S, Glabe C, Rogers J: Multivalent binding of complement protein C1q to the amyloid beta-peptide (A beta) promotes the nucleation phase of A beta aggregation. Biochem Biophys Res Commun 1995, 217: 869-875.PubMedCrossRef
61.
Boyett KW, DiCarlo G, Jantzen PT, Jackson J, O’Leary C, Wilcock D, Morgan D, Gordon MN: Increased fibrillar beta-amyloid in response to human clq injections into hippocampus and cortex of APP+PS1 transgenic mice. Neurochem Res 2003, 28: 83-93.PubMedCrossRef
62.
Hoarau JJ, Krejbich-Trotot P, Jaffar-Bandjee MC, Das T, Thon-Hon GV, Kumar S, Neal JW, Gasque P: Activation and control of CNS innate immune responses in health and diseases: a balancing act finely tuned by neuroimmune regulators (NIReg). CNS Neurol Disord: Drug Targets 2011, 10: 25-43.CrossRef
63.
Davies A, Simmons DL, Hale G, Harrison RA, Tighe H, Lachmann PJ, Waldmann H: CD59, an LY-6-like protein expressed in human lymphoid cells, regulates the action of the complement membrane attack complex on homologous cells. J Exp Med 1989, 170: 637-654.PubMedCrossRef
64.
Meri S, Morgan BP, Davies A, Danials RH, Olavesen MG, Waldmann H, Lachmann PJ: Human protectin (CD59), an 18,000-20,000 MW complement lysis restricting factor, inhibits C5b-8 catalysed insertion of C9 into lipid bilayers. Immunology 1990, 72: 1-9.
65.
Meri S, Waldmann H, Lachmann PJ: Distribution of protectin (CD59), a complement membrane attack inhibitor, in normal human tissues. Lab Invest 1991, 65: 532-537.PubMed
66.
Powell MB, Marchbank KJ, Rushmere NK, van den Berg CW, Morgan BP: Molecular cloning, chromosomal localization, expression, and functional characterization of the mouse analogue of human CD59. J Immunol 1997, 1997(158):1692-702.
67.
Kooyman DL, Byrne GW, McClellan S, Nielsen D, Tone M, Waldmann H, Coffman TM, McCurry KR, Platt JL, Logan JS: In vivo transfer of GPI-linked complement restriction factors from erythrocytes to the endothelium. Science 1995, 269: 89-92.PubMedCrossRef
68.
Gasque P, Ischenko A, Legoedec J, Mauger C, Schouft MT, Fontaine M: Expression of the complement classical pathway by human glioma in culture. J Biol Chem 1993, 268: 25068-25074.PubMed
69.
Morgan D, Diamond DM, Gottschali PE, Ugen KE, Dickey C, Hardy J, Duff K, Jantzen P, DiCarlo G, Wilcock D, Connor K, Hatcher J, Hope C, Gordon M, Arendash GW: A beta peptide vaccination prevents memory deficits in an animal model of Alzheimer disease. Nature 2000, 408: 982-985.PubMedCrossRef
70.
Morgan BP: Complement regulatory molecules: application to therapy and transplantation. Immunol Today 1995, 16: 257-9.PubMedCrossRef
71.
Klegeris A, Schwab C, Bissonnette CJ, McGeer PL: Induction of complement C9 messenger RNAs in human neuronal cells by inflammtory stimuli: relevance to neurodegenerative disorders. Exp Gerontol 2001, 36: 1179-1188.PubMedCrossRef
72.
Crehan H, Hardy J, Pocock J: Microglia, Alzheimer’s disease, and complement. Int J Alzheimers Dis 2012, 2012: 983640. doi: 10.1155/2012/983640. Epub 2012 Aug 21PubMedCentralPubMed
73.
Gál P, Dobó J, Beinrohr L, Pál G, Závodszky P: Inhibition of the serine proteases of the complement system. Adv Exp Med Biol 2013, 735: 23-40.PubMedCrossRef
74.
Schapira M, Patston PA: Serine protease inhibitors (serpins). Trends Cardiovasc Med 1991, 1: 146-51.PubMedCrossRef
75.
Carrell RW, Boswell DR: In C1 Esterase Inhibitors (Human), Volume 12. Edited by: Barrett A, Salvesen G. Amsterdam Elsevier: Chapter: Proteinase Inhibitors; 1986:403-420.
76.
Carter PE, Dunbar B, Fothergill JE: Genomic and cDNA cloning of the human C1INH. Eur J Biochem 1988, 173: 163-169.PubMedCrossRef
77.
de Zwaan C, Kleine AH, Diris JH, Glatz JF, Wellens HJ, Strengers PF, Tissing M, Hack CE, van Dieijen-Visser MP, Hermens WT: Continuous 48-h C1-inhibitor treatment, following reperfusion therapy, in patients with acute myocardial infarction. Eur Heart J 2002, 23: 1670-7.PubMedCrossRef
78.
Vedeler CA, Matre R, Sadallah S, Schifferli J: Soluble complement receptor type 1 in serum and cerebrospinal fluid of patients with Guillain-Barré syndrome and multiple sclerosis. J Neuroimmunol 1996, 67: 17-20.PubMedCrossRef
79.
Weisman HF, Bartow T, Leppo MK: Soluble human complement receptor type 1: in vivo inhibitor of complement suppressing post-ischemic myocardial inflammation and necrosis. Science 1990, 249: 146-151.PubMedCrossRef
80.
Naj AC, Jun G, Beecham GW, Wang LS, Vardarajan BN, Buros J, Gallins PJ, Buxbaum JD, Jarvik GP, Crane PK, Larson EB, Bird TD, Boeve BF, Graff-Radford NR, De Jager PL, Evans D, Schneider JA, Carrasquillo MM, Ertekin-Taner N, Younkin SG, Cruchaga C, Kauwe JS, Nowotny P, Kramer P, Hardy J, Huentelman MJ, Myers AJ, Barmada MM, Demirci FY, Baldwin CT, et al.: Common variants at MS4A4/MS4A6E, CD2AP, CD33 and EPHA1 are associated with late-onset Alzheimer’s disease. Nat Genet 2011, 43: 436-41.PubMedCentralPubMedCrossRef
81.
Hazrati LN, Van Cauwenberghe C, Brooks PL, Brouwers N, Ghani M, Sato C, Cruts M, Sleegers K, St George-Hyslop P, Van Broeckhoven C, Rogaeva E: Genetic association of CR1 with Alzheimer’s disease: a tentative disease mechanism. Neurobiol Aging 2012, 33: 2949. e5-2949.e12PubMedCrossRef
82.
Almeda S, Rosenberg RD, Bing DH: The binding properties of human complement component C1q: interaction with mucopolysaccharides. J Biol Chem 1983, 258: 785-791.PubMed
83.
Matsuoka Y, Picciano M, Malester B, LaFrancois J, Zehr C, Daeschner JM, Olschowka JA, Fonseca MI, O’Banion MK, Tenner AJ, Lemere CA, Duff K: Inflammatory responses to amyloidosis in a transgenic mouse model of Alzheimer’s disease. Am J Pathol 2001, 158: 1345-1354.PubMedCentralPubMedCrossRef
84.
Sárvári M, Vágó I, Wéber CS, Nagy J, Gál P, Mák M, Kósa JP, Závodszky P, Pázmány T: Inhibition of C1q-beta-amyloid binding protects hippocampal cells against complement mediated toxicity. J Neuroimmunol 2003, 137: 12-8.PubMedCrossRef
85.
86.
Kirschfink M, Blasé L, Engelmann S, Schwartz-Albiez R: Secreted chondroitin sulfate proteoglycan of human B cell lines binds to the complement protein C1q and inhibits complex formation of C1. J Immunol 1997, 158: 1324-1331.PubMed
87.
Botto M, Dell’Agnola C, Bygrave AE, Thompson EM, Cook HT, Petry F, Loos M, Pandolfi PP, Walport MJ: Homozygous C1q deficiency causes glomerulonephritis associated with multiple apoptotic bodies. Nat Genet 1998, 19: 56-9.PubMedCrossRef
88.
Fujita Y, Inoue I, Inagi R, Miyata T, Shinzato T, Sugiyama S, Miyama A, Maeda K: Inhibitory effect of FUT-175 on complement activation and its application for glomerulonephritis with hypocomplementemia. Nihon Jinzo Gakkai Shi 1993, 35: 393-7.PubMed
89.
Kapil A, Sharma S: Immunopotentiating compounds from Tinospora cordifolia . J Ethnopharmacol 1997, 58: 89-95.PubMedCrossRef
90.
Kapil A, Moza N: Anticomplementary activity of boswellic acids—an inhibitor of C3-convertase of the classical complement pathway. Int J Immunopharmacol 1992, 14: 1139-1143.PubMedCrossRef
91.
Holmquist E, Okroj M, Nodin B, Jirström K, Blom AM: Sushi domain-containing protein 4 (SUSD4) inhibits complement by disrupting the formation of the classical C3 convertase. FASEB J 2013, 27: 2355-66.PubMedCrossRef
92.
Duarte ME, Cardoso MA, Noseda MD, Cerezo AS: Structural studies on fucoidans from the brown seaweed Sargassum stenophyllum. Carbohydr Res 2001, 333: 281-93.PubMedCrossRef
93.
Rocha HA, Franco CR, Trindade ES, Caryalho LC, Veiga SS, Leite EL, Dietrich CP, Nader HB: A fucan from the brown seaweed Spatoglossum schroederi inhibits Chinese hamster ovary cell adhesion to several extracellular matrix proteins. Braz J Med Biol Res 2001, 34: 621-6.PubMedCrossRef
94.
Blondin C, Fisher E, Boisson-Vidal C, Kazatchkine MD, Jozefonvicz J: Inhibition of complement activation by natural sulfated polysaccharides (fucans) from brown seaweed. Mol Immunol 1994, 31: 247-253.PubMedCrossRef
95.
Zabel M, Schrag M, Crofton A, Tung S, Beaufond P, Van Ornam J, Dininni A, Vinters HV, Coppola G, Kirsch WM: A Shift in microglial β-amyloid binding in Alzheimer’s disease is associated with cerebral amyloid angiopathy. Brain Pathol 2013, 23: 390-401.PubMedCentralPubMedCrossRef
96.
Gerard NP, Gerard C: The chemotactic receptor for human C5a anaphylatoxin. Nature 1991, 349: 614-617.PubMedCrossRef
97.
Mukherjee P, Pasinetti GM: Complement anaphylatoxin C5a neuroprotects through mitogen-activated protein kinase-dependent inhibition of caspase 3. J Neurochem 2001, 77: 43-9.PubMedCrossRef
98.
Osaka H, Mukherjee P, Aisen PS, Pasinetti GM: Complement-derived anaphylatoxin C5a protects against glutamate-mediated neurotoxicity. J Cell Biochem 1999, 73: 303-11.PubMedCrossRef
99.
Bard F, Cannon C, Barbour R, Burke RL, Games D, Grajeda H, Guido T, Hu K, Huang J, Johnson-Wodd K: Peripherally administered antibodies against amyloid beta peptide enter the central nervous system and reduce pathology in a mouse model of Alzheimer disease. Nat Med 2001, 6: 916-919.CrossRef
100.
Castro JL, Broughton HB, Russell MG, Rathbone D, Watt AP, Ball RG, Chapman KL, Patel S, Smith AJ, Marshall GR, Matassa VG: 5-(Piperidin-2-yl)- and 5-(homopiperidin-2-yl)-1,4-benzodiazepines: high-affinity, basic ligands for the cholecystokinin-B receptor. J Med Chem 1997, 40: 2491-2501.PubMedCrossRef
101.
Wong AK, Finch AM, Pierens GK, Craik DJ, Taylor SM, Fairlie DP: Small molecular probes for G-protein-coupled C5a receptors: conformationally constrained antagonists derive from the C terminus of the human plasma protein C5a. J Med Chem 1998, 41: 3417-3425.PubMedCrossRef
102.
Zhang X, Boyar W, Galakatos N, Gonnella NC: Solution structure of a unique C5a semi-synthetic antagonist: implications in receptor binding. Protein Sci 1997, 6: 65-72.PubMedCentralPubMedCrossRef
103.
Whiss PA: Pexelizumab Alexion. Curr Opin Investig Drugs 2002, 3: 870-877.PubMed
104.
Ager RR, Fonseca MI, Chu SH, Sanderson SD, Taylor SM, Woodruff TM, Tenner AJ: Microglial C5aR (CD88) expression correlates with amyloid-beta deposition in murine models of Alzheimer’s disease. J Neurochem 2010, 113: 389-401.PubMedCentralPubMedCrossRef
105.
Chitnis T, Imitola J, Wang Y, Elyaman W, Chawla P, Sharuk M, Raddassi K, Bronson RT, Khoury SJ: Elevated neuronal expression of CD200 protects Wlds mice from inflammation-mediated neurodegeneration. Am J Pathol 2007, 170: 1695-712.PubMedCentralPubMedCrossRef
106.
Xing C, Lee S, Kim WJ, Jin G, Yang YG, Ji X, Wang X, Lo EH: Role of oxidative stress and caspase 3 in CD47-mediated neuronal cell death. J Neurochem 2009, 108: 430-6.PubMedCentralPubMedCrossRef
107.
Wang Y, Li Y, Dalle Lucca SL, Simovic M, Tsokos GC, Dalle Lucca JJ: Decay accelerating factor (CD55) protects neuronal cells from chemical hypoxia-induced injury. J Neuroinflammation 2010, 7: 24.PubMedCentralPubMedCrossRef
108.
Kolev MV, Tediose T, Sivasankar B, Harris CL, Thome J, Morgan BP, Donev RM: Upregulating CD59: a new strategy for protection of neurons from complement-mediated degeneration. Pharmacogenomics J 2010, 10: 12-9.PubMedCrossRef
109.
Griffiths MR, Neal JW, Fontaine M, Das T, Gasque P: Complement factor H, a marker of self protects against experimental autoimmune encephalomyelitis. J Immunol 2009, 182: 4368-77.PubMedCrossRef
110.
Aiyaz M, Lupton MK, Proitsi P, Powell JF, Lovestone S: Complement activation as a biomarker for Alzheimer’s disease. Immunobiology 2012, 217: 204-15.PubMedCrossRef
111.
Wang Y, Hancock AM, Bradner J, Chung KA, Quinn JF, Peskind ER, Galasko D, Jankovic J, Zabetian CP, Kim HM, Leverenz JB, Montine TJ, Ginghina C, Edwards KL, Snapinn KW, Goldstein DS, Shi M, Zhang J: Complement 3 and factor h in human cerebrospinal fluid in Parkinson’s disease, Alzheimer’s disease, and multiple-system atrophy. Am J Pathol 2011, 178: 1509-16.PubMedCentralPubMedCrossRef
112.
Daborg J, Holmgren S, Abramsson A, Andreasson U, Zetterberg M, Nilsson S, Minthon L, Skoog I, Blennow K, Pekna M, Hanse E, Zetterberg H: Complement gene single nucleotide polymorphisms and biomarker endophenotypes of Alzheimer’s disease. J Alzheimers Dis 2013, 35: 51-7.PubMed
113.
Hampel H, Shen Y: Beta-site amyloid precursor protein cleaving enzyme 1 (BACE1) as a biological candidate marker of Alzheimer’s disease. Scand J Clin Lab Invest 2009, 69: 8-12.PubMedCrossRef
114.
Singh S, Kushwah AS, Singh R, Farswan M, Kaur R: Current therapeutic strategy in Alzheimer’s disease. Eur Rev Med Pharmacol Sci 2012, 16: 1651-64.PubMed
115.
Janus C, Pearson J, McLaurin J, Mathews PM, Jiang Y, Schmidt SD, Chlshti MA, Horne P, Hestlin D, French J: A beta immunization reduces behavioral impairment and plaques in a mode of Alzheimer disease. Nature 2000, 408: 979-982.PubMedCrossRef
116.
Schenk D, Barbour R, Dunn W, Gordon G, Grajeda H, Guido T, Hu K, Huang J, Johnson-Wood K, Khan K: Immunization with amyloid-beta attenuates Alzheimer disease-like pathology in the PDAPP mouse. Nature 1999, 40: 173-177.CrossRef
117.
118.
Greenberg SM, Bacskai BJ, Hyman BT: Alzheimer disease’s double-edged vaccine. Nat Med 2003, 9: 389-97.PubMedCrossRef
119.
McGeer PL, McGeer E: Is there a future for vaccination as a treatment for Alzheimer’s disease? Neurobiol Aging 2003, 24: 391-5.PubMedCrossRef
120.
Nicoll JAR, Wilkinson D, Holmes C, Steart P, Markham H, Weller RO: Neuropathology of human Alzheimer disease after immunization with amyloid beta peptide: a case report. Nat Med 2003, 9: 448-452.PubMedCrossRef
121.
Panza F, Frisardi V, Solfrizzi V, Imbimbo BP, Logroscino G, Santamato A, Greco A, Seripa D, Pilotto A: Immunotherapy for Alzheimer’s disease: from anti-β-amyloid to tau-based immunization strategies. Immunotherapy 2012, 4: 213-38.PubMedCrossRef
122.
Vellas B, Carrillo MC, Sampaio C, Brashear HR, Siemers E, Hampel H, Schneider LS, Weiner M, Doody R, Khachaturian Z, Cedarbaum J, Grundman M, Broich K, Giacobini E, Dubois B, Sperling R, Wilcock GK, Fox N, Scheltens P, Touchon J, Hendrix S, Andrieu S, Aisen P: EU/US/CTAD task force members: designing drug trials for Alzheimer’s disease: what we have learned from the release of the phase III antibody trials: a report from the EU/US/CTAD task force. Alzheimers Dement 2013, 9: 438-44.PubMedCrossRef
123.
Farlow M, Arnold SE, van Dyck CH, Aisen PS, Snider BJ, Porsteinsson AP, Friedrich S, Dean RA, Gonzales C, Sethuraman G, DeMattos RB, Mohs R, Paul SM, Siemers ER: Safety and biomarker effects of solanezumab in patients with Alzheimer’s disease. Alzheimers Dement 2012, 8: 261-71.PubMedCrossRef
124.
DeMottos RB, Bales KR, Cummins DL, Dodart JC, Paul SM, Hotltzman DM: Peripheral anti-A beta antibody alters CNS and plasma A beta clearance and decreases brain A beta burden in a mouse model of Alzheimer’s disease. Proc Natl Acad Sci U S A 2001, 98: 8850-8855.CrossRef
125.
Gandy S: Molecular basis for anti-amyloid therapy in the prevention and treatment of Alzheimer’s disease. Neurobiol Aging 2002, 23: 1009-1016.PubMedCrossRef
126.
Weiner HL, Selkoe DJ: Inflammation and therapeutic vaccination in CNS diseases. Nature 2002, 420: 879-84.PubMedCrossRef
127.
Sigurdsson EM, Wisniewski T, Frangione B: A safer vaccine for Alzheimer’s disease? Neurobiol Aging 2002, 23: 1001-8.PubMedCrossRef
128.
Metadata
Title
What does complement do in Alzheimer’s disease? Old molecules with new insights
Authors
Yong Shen
Libang Yang
Rena Li
Publication date
01-12-2013
Publisher
BioMed Central
Published in
Translational Neurodegeneration / Issue 1/2013
Electronic ISSN: 2047-9158
DOI
https://doi.org/10.1186/2047-9158-2-21

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