Abstract
Prions have served as pathfinders that reveal many aspects of proteostasis in neurons. The recent realization that several prominent neurodegenerative diseases spread via a prion-like mechanism illuminates new possibilities for diagnostics and therapeutics. Thus, key proteins in Alzheimer Disease and Amyotrophic lateral sclerosis (ALS), including amyloid-β precursor protein, Tau and superoxide dismutase 1 (SOD1), spread to adjacent cells in their misfolded aggregated forms and exhibit template-directed misfolding to induce further misfolding, disruptions to proteostasis and toxicity. Here we invert this comparison to ask what these prion-like diseases can teach us about the broad prion disease class, especially regarding the loss of these key proteins’ function(s) as they misfold and aggregate. We also consider whether functional amyloids might reveal a role for subverted protein function in neurodegenerative disease. Our synthesis identifies SOD1 as an exemplar of protein functions being lost during prion-like protein misfolding, because SOD1 is inherently unstable and loses function in its misfolded disease-associated form. This has under-appreciated parallels amongst the canonical prion diseases, wherein the normally folded prion protein, PrPC, is reduced in abundance in fatal familial insomnia patients and during the preclinical phase in animal models, apparently via proteostatic mechanisms. Thus while template-directed misfolding and infectious properties represent gain-of-function that fascinates proteostasis researchers and defines (is required for) the prion(-like) diseases, loss and subversion of the functions attributed to hallmark proteins in neurodegenerative disease needs to be integrated into design towards effective therapeutics. We propose experiments to uniquely test these ideas.
Highlights
Prion diseases are incurable neurodegenerative diseases of people, livestock and wildlife that devastate individuals and families, socioeconomics of agricultural sectors, and the ecology surrounding cervids
If this same proteostatic process is occurring vibrantly in the newly identified self-templating non-toxic prion strains, it might serve as a notable rebuttal to our hypotheses; minimally it would cause us to ask if there are some functions gained in disease-causing strains that are not universal to prion aggregation
We present support from diverse corners for our alternate hypothesis, that the GOF is required but the deregulation of physiology towards neurodegeneration may largely rest in downstream LOF events
Summary
Prion diseases are incurable neurodegenerative diseases of people, livestock and wildlife that devastate individuals and families, socioeconomics of agricultural sectors, and the ecology surrounding cervids (deer, moose, caribou/reindeer, etc.). During prion disease the normally folded cellular prion protein (PrPC) misfolds (denoted “scrapie” form, PrPSc) (Figure 1) and gains functions such as toxicity and infectivity. This Tsphirsesapdrienagditnogntoewnelwocloactiaotinosnsininitiitaiatetesspprrootteeoossttaattiiccddisirsurupptiotinonanadnddegdeengeernateirvaeteivveenetvseinntosthinerowtihseerwise healthheyalctehlylsc;e(lbls); (Nb)oNrmoramllayllfyoflodleddedppriroionnpprrootteeiinn ((PPrrPPCC, i,.ei..e, “.,c“eclleulllaurl”afro”rmforrmeprreespernetseednbtyedblbuye cbirlucleesc)ircles) (isd)reTcmi(hrsdeui)rseiPftTcoerrhlPdudeSiittcnoePgfdrriPanctySogtcecmilrfneraet;aecng(rtetmas)wceP(tienrwt.hPtgsiSt.Pc,h(corePoP.lgnirSg.Ptc,ioS;ncom;(ulc(iece)gs)roTsTtmhohoueursrspsfisrPPbeorrrarPPidlSSsfctci)abobacrncricleuecsaw)umkmbucarleueaplatllaseakrstateianasnpdniatndhtritestrshenauceenerwdsnu.eicrAtweemllcllr,cotuwehrileteilt,hePmwvrtoePwitrnCheotsictPnwionrtnPoostChetchqiiosneunmtemosnoecitqdsehfueseol;elndcinesg; cycler;ep(er)esPernPt Sfcunccotniotninsugeasinteodsupproenadprtooteninewmicsefolllsdianngd, wtihsesrueeass.oAurllstyhnetheevsiesnatsskisnifthdiissemasoedeetilorloegpyresent functoiuognhstgtaoianlesdo cuopnosindeprrofutneicntiomnisstfhoaldt ainreg,lowsthfeorlleoaws ionugrpsryontetihnemsiissfaoslkdsinigf.disease etiology ought to consider functions that are lost following protein misfolding. Applying this framework has led us to encourage an increased level of attention upon protein lAospspolfyfiunngcttihoins (fLraOmF)ewduorriknghparsolteedinums itsofoelndcinogu/raagggereagnatiinocnr/eaamsyeldoildeovseilsoafs aatcteanustiaotinveupcoonntrpibruottoerin loss of fut[no7c]d.tiTiosheniass(LeisOpmrFoe)gardnetustsroiionengn,ciponrucolruatedgiiennagmttLeiOnsftFoioilnnditonhnegm/keaisygfsogtlordenigenagdtitishoeanats/ceaopmmropytlleeoimnidseosnustsicshthaaesscatuhcrearpeunrsitoamntiavpjreoorctfeooinnctuirtsisboeulnftor to diseamseispforlodginregslseiaodni,nignctoluadginaginLoOf Ffuinncttihoenk(GeyOsFto),nie.ed., iasegaasien porfottoexiincsfusunccthioanstthhaet pprrioodnucpersodteisineaistes.elf [7]. First we will begin by reviewing what characters are shared by neurodegenerative diseases that newly classify them as being “prion-like”
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