Alzheimer's disease‐causing proline substitutions lead to presenilin 1 aggregation and malfunction

Ben‐Gedalya, Tziona; Moll, Lorna; Bejerano‐Sagie, Michal; Frère, Samuel; Cabral, Wayne A.; Friedmann‐Morvinski, Dinorah; Slutsky, Inna; Burstyn‐Cohen, Tal; Marini, Joan C.; Cohen, Ehud

doi:10.15252/embj.201592042

Cited by 27 publications

(29 citation statements)

References 69 publications

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“…The association of aggresomes with neurodegenerative maladies was demonstrated by accumulation of the familial AD (fAD)-linked, mutated presenilin 1 (PS1) carrying the A246E mutation (PS1 is an active component of the g-secretase complex) in these structures (Johnston et al 1998). Interestingly, PS1 molecules that harbor other fAD-causing mutations accumulate within the ER upon proteasome inhibition (Ben-Gedalya et al 2015), showing that distinct conformers of the same protein can be sorted to distinct cellular deposition sites. Toxic PrP species (Kristiansen et al 2005), disease-causing PrP mutants (Cohen and Taraboulos 2003;Mishra et al 2003), and PD-associated, aggregated a-synuclein (Tanaka et al 2004;Wong et al 2008) were also shown to be deposited in aggresomes of mammalian cells, further linking these sites with human illnesses.…”

Section: Cellular Deposition Sitesmentioning

confidence: 99%

Protein Quality Control in Health and Disease

Dubnikov

Ben‐Gedalya

Cohen

2016

Cold Spring Harb Perspect Biol

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Maintaining functional protein homeostasis ( proteostasis) is a constant challenge in the face of limited protein-folding capacity, environmental threats, and aging. Cells have developed several quality-control mechanisms that assist nascent polypeptides to fold properly, clear misfolded molecules, respond to the accumulation of protein aggregates, and deposit potentially toxic conformers in designated sites. Proteostasis collapse can lead to the development of diseases known as proteinopathies. Here we delineate the current knowledge on the different layers of protein quality-control mechanisms at the organelle and cellular levels with an emphasis on the prion protein (PrP). We also describe how protein quality control is integrated at the organismal level and discuss future perspectives on utilizing proteostasis maintenance as a strategy to develop novel therapies for the treatment of proteinopathies.

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Section: Cellular Deposition Sitesmentioning

confidence: 99%

Protein Quality Control in Health and Disease

Dubnikov

Ben‐Gedalya

Cohen

2016

Cold Spring Harb Perspect Biol

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“…Recently, we discovered that familial AD-causing Proline substitutions in residues 264 or 267 in the sequence of presenilin 1 (PS1) abolish a cyclophilin recognition site, leading to PS1 misfolding and aggregation and to the development of certain cases of the disease (13). This study indicates that cyclophilins are key players in the maintenance of proteostasis and the prevention of neurodegeneration.…”

Section: Abstract: Neurodegeneration • Chaperones • Aggresome • Protmentioning

confidence: 99%

The inhibition of IGF‐1 signaling promotes proteostasis by enhancing protein aggregation and deposition

Moll¹,

Ben‐Gedalya²,

Reuveni

et al. 2015

FASEB j.

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The discovery that the alteration of aging by reducing the activity of the insulin/IGF-1 signaling (IIS) cascade protects nematodes and mice from neurodegeneration-linked, toxic protein aggregation (proteotoxicity) raises the prospect that IIS inhibitors bear therapeutic potential to counter neurodegenerative diseases. Recently, we reported that NT219, a highly efficient IGF-1 signaling inhibitor, protects model worms from the aggregation of amyloid b peptide and polyglutamine peptides that are linked to the manifestation of Alzheimer's and Huntington's diseases, respectively. Here, we employed cultured cell systems to investigate whether NT219 promotes protein homeostasis (proteostasis) in mammalian cells and to explore its underlying mechanisms. We found that NT219 enhances the aggregation of misfolded prion protein and promotes its deposition in quality control compartments known as "aggresomes." NT219 also elevates the levels of certain molecular chaperones but, surprisingly, reduces proteasome activity and impairs autophagy. Our findings show that IGF-1 signaling inhibitors in general and NT219 in particular can promote proteostasis in mammalian cells by hyperaggregating hazardous proteins, thereby bearing the potential to postpone the onset and slow the progression of neurodegenerative illnesses in the elderly.-Moll, L., Ben-Gedalya, T., Reuveni, H., Cohen, E. The inhibition of IGF-1 signaling promotes proteostasis by enhancing protein aggregation and deposition. FASEB J. 30, 1656-1669 (2016). www.fasebj.org

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“…Hitherto, there has been no evidence that CsA treatment induces neurodegeneration; however, the use of CsA, an immunosuppressant that was prescribed for extended periods to individuals who underwent organ transplantations (41), should raise concern. This is particularly true because we previously found that the inhibition of cyclophilins appears to be involved in the development of certain cases of familial Alzheimer's disease (42). It is also possible that exosome secretions are increased in the later stages of life, enabling the spread of proteotoxicity and neurodegenerative disorders to manifest in an aging-associated manner [reviewed in Carvalhal Marques et al (43)].…”

Section: Prp-containing Exosomes and Prion Pathogenicitymentioning

confidence: 99%

Vesicle‐mediated secretion of misfolded prion protein molecules from cyclosporin A‐treated cells

2018

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Loss of protein homeostasis is a hazardous situation that jeopardizes cellular functionality and viability. Cells have developed mechanisms that supervise protein integrity and direct misfolded molecules for degradation. Nevertheless, subsets of aggregation-prone proteins escape degradation and form aggregates that can underlie the development of neurodegenerative disorders. In some cases, cells deposit hazardous protein aggregates in designated sites, like aggresomes, or secrete them with vesicles. The prion protein (PrP) is an aggregation-prone, membrane-anchored glycoprotein, whose aggregation causes familial and sporadic, fatal, neurodegenerative diseases. The proper maturation of PrP is assisted by cyclophilin B, an endoplasmic reticulum-resident foldase. Accordingly, the inhibition of cyclophilins by the drug cyclosporin A (CsA) leads to the accumulation of aggregated PrP and to its deposition in aggresomes. In this study, we asked whether secretion is an alternative strategy that cells adopt to get rid of misfolded PrP molecules and found that, upon treatment with CsA, cells secrete PrP by exosomes, a subtype of secretion vesicles, and by additional types of vesicles. CsA-induced, PrP-containing exosomes originate from the endoplasmic reticulum in a Golgi-independent manner. These findings divulge a new cellular response that is activated upon CsA treatment to secrete misfolded PrP species from the cell and may underlie the spreading of toxic prions among cells and across tissues.-Pan, I., Roitenberg, N., Cohen, E. Vesicle-mediated secretion of misfolded prion protein molecules from cyclosporin A-treated cells.

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Alzheimer's disease‐causing proline substitutions lead to presenilin 1 aggregation and malfunction

Cited by 27 publications

References 69 publications

Protein Quality Control in Health and Disease

Protein Quality Control in Health and Disease

The inhibition of IGF‐1 signaling promotes proteostasis by enhancing protein aggregation and deposition

Vesicle‐mediated secretion of misfolded prion protein molecules from cyclosporin A‐treated cells

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