Molecular Mechanisms Used by Chaperones to Reduce the Toxicity of Aberrant Protein Oligomers

Molecular Mechanisms Used by Chaperones to Reduce the Toxicity of Aberrant Protein Oligomers

Molecular mechanisms used by chaperones to reduce the toxicity of aberrant protein oligomers Benedetta Manninia,1, Roberta Cascellaa,1, Mariagioia Zampagnia, Maria van Waarde-Verhagenb, Sarah Meehanc, Cintia Roodveldtd, Silvia Campionie, Matilde Boninsegnaa, Amanda Pencof, Annalisa Relinif, Harm H. Kampingab, Christopher M. Dobsonc, Mark R. Wilsong, Cristina Cecchia, and Fabrizio Chitia,2 aDepartment of Biochemical Sciences, University of Florence, 50134 Florence, Italy; bDepartment of Cell Biology, University Medical Center Groningen, 9713 AV, Groningen, The Netherlands; cDepartment of Chemistry, University of Cambridge, Cambridge CB2 1EW, United Kingdom; dCentro Andaluz de Biologia Molecular y Medicina Regenerativa, Consejo Superior de Investigaciones Cientificas, University of Seville, Universidad Pablo de Olavide, Junta de Andalucía, 41092 Seville, Spain; eDepartment of Chemistry and Applied Biosciences, Swiss Federal Institute of Technology Zurich, CH-8093 Zurich, Switzerland; fDepartment of Physics, University of Genoa, 16146 Genoa, Italy; and gSchool of Biological Sciences, University of Wollongong, Wollongong 2522, Australia Edited by Susan Lindquist, Whitehead Institute for Biomedical Research, Cambridge, MA, and approved June 19, 2012 (received for review October 28, 2011) Chaperones are the primary regulators of the proteostasis net- highly toxic to cultured cells and are thought to be the major work and are known to facilitate protein folding, inhibit protein deleterious species in a range of protein aggregation diseases (4). aggregation, and promote disaggregation and clearance of mis- We show that the chaperones markedly decrease the toxicity of folded aggregates inside cells. We have tested the effects of five preformed oligomers, with significant effects being observed chaperones on the toxicity of misfolded oligomers preformed from even at molar ratios of protein/chaperone as high as 500:1. In three different proteins added extracellularly to cultured cells. All addition, we show that chaperones bind to the oligomers and the chaperones were found to decrease oligomer toxicity signif- promote their clustering into larger aggregates in the absence of icantly, even at very low chaperone/protein molar ratios, provided any disaggregation or major structural reorganization. Overall, that they were added extracellularly rather than being overex- these results provide suggestions on additional mechanisms by pressed in the cytosol. Infrared spectroscopy and site-directed which molecular chaperones are cytoprotective extracellularly labeling experiments using pyrene ruled out structural reorganiza- and also reveal previously undescribed determinants of protein tions within the discrete oligomers. Rather, confocal microscopy, oligomer toxicity and strategies to convert protein aggregates SDS-PAGE, and intrinsic fluorescence measurements indicated tight that are toxic to cultured cells into innocuous species. binding between oligomers and chaperones. Moreover, atomic force microscopy imaging indicated that larger assemblies of Results oligomers are formed in the presence of the chaperones. This Chaperones Reduce Oligomer Toxicity. We generated toxic oligomers suggests that the chaperones bind to the oligomers and promote from Aβ42, IAPP, and HypF-N, as described previously (12–14). their assembly into larger species, with consequent shielding of After 1 h of incubation in the cell culture medium, they were the reactive surfaces and a decrease in their diffusional mobility. added to human SH-SY5Y neuroblastoma cultured cells at a Overall, the data indicate a generic ability of chaperones to corresponding monomer concentration of 12 μM. Under these neutralize extracellular misfolded oligomers efficiently and reveal conditions, all oligomers were found to decrease the 3-(4,5- that further assembly of protein oligomers into larger species can dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) be an effective strategy to neutralize such extracellular species. reduction of the cells by 30–40%, demonstrating their toxic nature (Fig. 1A). The oligomers were then subjected to the same pro- protein homeostasis | protein misfolding | protein aggregates | amyloid | cedure but incubated for 1 h in the cell culture medium containing extracellular chaperones either αB-crystallin (αBcr), heat shock protein 70 (Hsp70), clus- terin (Clu), haptoglobin (Hp), or α2-macroglobulin (α2M) before he ability of living systems to maintain their peptides and their addition to SH-SY5Y cells. For these five chaperones and all BIOCHEMISTRY Tproteins in soluble and functional states is the result of our experiments, the protein/chaperone molar ratios were 5:1, 5:1, evolutionary selection of the physicochemical and conforma- 10:1, 15:1, and 100:1, respectively, unless otherwise stated. In each tional characteristics of these macromolecules (1) and is also case, the cells were found to reduce MTT to levels similar to attributable to an array of biological mechanisms that, together, untreated cells and to cells treated with the native proteins (Fig. act to ensure proteostasis (2). Failures of the protective and 1A). Hsp70 was found to be equally effective with or without ATP regulatory mechanisms can result in a wide variety of patholog- (SI Appendix, Fig. S1). ical conditions, including those associated with the accumulation When the oligomers were incubated in the cell culture me- of protein aggregates, both in the cytosol and in the extracellular dium with proteins that do not act as chaperones, either hen space (3, 4). Molecular chaperones are proteins that play a cen- lysozyme (HEWL) or bovine serum albumin (BSA), they main- tral role in the avoidance of protein misfolding and aggregation tained their toxicity (Fig. 1A). Moreover, chaperones were not (5–8). Most known chaperones are intracellular (7, 8), but some found to be protective against other forms of stress, such as of them are secreted and are collectively referred to as extra- H2O2-mediated oxidation (SI Appendix, Fig. S2). These results cellular chaperones (9). Chaperones are known to have a range of different functions, such as assisting in protein folding (7), inhibiting protein aggregation (10), causing the disaggregation of Author contributions: B.M., R.C., C.C., and F.C. designed research; B.M., R.C., M.Z., M.v.W., aberrant protein oligomers (6), and facilitating the degradation S.C, M.B., A.P., and A.R. performed research; B.M., R.C., C.R., A.P., A.R., H.H.K., C.C., and of misfolded proteins (11). F.C. analyzed data; S.M., C.R., and M.R.W. contributed new reagents/analytic tools; and In this study, we have examined the effects of two intracellular B.M., R.C., C.M.D., M.R.W., and F.C. wrote the paper. and three extracellular chaperones on the toxicity of extracellu- The authors declare no conflict of interest. larly added oligomers formed by three different peptides/pro- This article is a PNAS Direct Submission. 1 teins, namely, the 42-residue amyloid β peptide (Aβ42), the islet B.M. and R.C. contributed equally to this work. amyloid polypeptide (IAPP), and the N-terminal domain of the 2To whom correspondence should be addressed. E-mail: fabrizio.chiti@unifi.it. Escherichia coli HypF protein from (HypF-N). We focused our This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10. attention on small oligomers because such species are generally 1073/pnas.1117799109/-/DCSupplemental. www.pnas.org/cgi/doi/10.1073/pnas.1117799109 PNAS | July 31, 2012 | vol. 109 | no. 31 | 12479–12484 Downloaded by guest on September 23, 2021 experienced by the oligomers following their exposure to chaperones (see below). HypF-N oligomers have been shown to be toxic via aberrant interactions with the cell membrane, causing a rapid influx of Ca2+ ions from the cell culture medium to the cytosol (15). This event triggers a slower and complex cellular cascade manifested by increases in intracellular reactive oxygen species and caspase- 3 activity, and as a release of intracellular calcein from cells, eventually leading to apoptosis (15). Preincubation of HypF-N oligomers (12 μM monomer) with each of the five chaperones in the cell culture medium for 1 h, before addition to the cells, was found to inhibit the increase of intracellular Ca2+ levels caused by the oligomers (Fig. 2), with the degree of inhibition increasing with preincubation time (SI Appendix, Fig. S4). All other events were also reduced markedly, with the extent of reduction again being dependent on the time of preincubation (SI Appendix, Figs. S5–S7). We conclude, therefore, that all five chaperones exam- ined here can inhibit the initial biochemical events induced by toxic HypF-N oligomers, namely, the influx of Ca2+, thus elim- inating the occurrence of later downstream effects. In addition, the observed dependence of the degree of protection on the preincubation time indicates that the chaperones generically reduce toxicity by interacting with the oligomers, rather than through a separate protective pathway mediated by interaction of the chaperones with the cells. Fig. 1. Reduction of protein oligomer toxicity by chaperones. (A) Preformed Extracellular chaperones can interact with misfolded proteins oligomers of HypF-N, Aβ42, and IAPP were resuspended in the cell culture and are thought to facilitate their clearance via endocytosis medium at a corresponding monomer concentration of 12 μM, incubated for mediated by cell surface receptors, such as the lipoprotein 1 h without or with the indicated chaperones or

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