Small Heat Shock Proteins, Big Impact on Protein Aggregation in Neurodegenerative Disease

Webster, John H.; Darling, April L.; Uversky, Vladimir N.; Blair, Laura J.

doi:10.3389/fphar.2019.01047

Cited by 124 publications

(116 citation statements)

References 284 publications

(393 reference statements)

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“…They act early-stage on hydrophobic stretches of their substrates, possibly upstream of the ATPdependent Hsp70-Hsp90 chaperone cascade (Bakthisaran et al, 2015;Haslbeck and Vierling, 2015;McHaourab et al, 2009;Morán Luengo et al, 2019;Zwirowski et al, 2017). Out of 10 mammalian sHSPs, five family members are expressed in neurons and play a role in neurodegenerative diseases: HSPB1, HSPB5, HSPB8 and, to a lower extend, HSPB6 (Quraishe et al, 2008;Webster et al, 2019). HSPB1 and HSPB6 both show a strong increase in all brain regions (Fig.…”

Section: Upregulation Of Several Shspsmentioning

confidence: 97%

Alzheimer cells on their way to derailment show selective changes in protein quality control network

Koopman

Rüdiger

2020

Preprint

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Correspondence: m.b.koopman@uu.nl and s.g.d.rudiger@uu.nl Alzheimer's Disease is driven by protein aggregation and is characterised by accumulation of Tau protein into neurofibrillary tangles. In healthy neurons the cellular protein quality control is successfully in charge of protein folding, which raises the question to which extent this control is disturbed in disease. Here we describe that brain cells in Alzheimer's Disease show very specific derailment of the protein quality control network. We performed a metaanalysis on the Alzheimer's Disease Proteasome database, which provides a quantitative assessment of disease-related proteome changes in six brain regions in comparison with age-matched controls. We noted that levels of all paralogues of the conserved Hsp90 chaperone family are reduced, while most other chaperones -or their regulatory cochaperones -do not change in disease. The notable exception is a select group consisting of the stress inducible HSP70, its nucleotide exchange factor BAG3 -which links the Hsp70 system to autophagy -and neuronal small heat shock proteins, which are upregulated in disease. They are all members of a cascade controlled in the stress response, channelling proteins towards a pathway of chaperone assisted selective autophagy. Together, our analysis reveals that in an Alzheimer's brain, with exception of Hsp90, the players of the protein quality control are still present in full strength, even in brain regions most severely affected in disease. The specific upregulation of small heat shock proteins and HSP70:BAG3, ubiquitous in all brain areas analysed, may represent a last, unsuccessful attempt to advert neuronal cell death.

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Section: Upregulation Of Several Shspsmentioning

confidence: 97%

Alzheimer cells on their way to derailment show selective changes in protein quality control network

Koopman

Rüdiger

2020

Preprint

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“…It is evident that hyperglycemia-induced alternations in mitochondrial electron transport are a key causative factor for mitochondrial dysfunction [34]. Molecular stress proteins are a group of proteins which enable mitochondria to respond to stressinduced protein misfolding [35]. Heat shock protein 60 (HSP60) is one such molecular stress protein that is expressed in both prokaryotes and eukaryotic cells [36].…”

Section: Role Of Molecular Stress Proteins During Mitochondrialmentioning

confidence: 99%

Role of Mitochondrial Stress Protein HSP60 in Diabetes-Induced Neuroinflammation

Liyanagamage

Martinus

2020

Mediators of Inflammation

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Diabetes mellitus is the most common metabolic disorder characterized by hyperglycemia and associated malfunctions of the metabolism of carbohydrates, proteins, and lipids. There is increasing evidence of a relationship between diabetes and vascular dementia. Interestingly, hyperglycemia-linked neuroinflammation in the central nervous system is considered to play a key role during vascular dementia in diabetic patients. However, the mechanisms responsible for the relationship between hyperglycemia and neuroinflammation is not clearly understood. Diabetes-induced alternations in the blood-brain barrier permit high glucose influx into the brain cells via glucose transporters and promote oxidative stress through overproduction of reactive oxygen species. Despite many studies demonstrating a link between oxidative stress and mitochondrial dysfunction, the relationship between mitochondrial dysfunction and neuron inflammation during hyperglycemia remains to be established. In this review, we will focus on diabetes-induced changes in the central nervous system and the role of mitochondrial heat shock protein 60 (HSP60) as an initiator of oxidative stress and potential modulator of neuroinflammation. We suggest that oxidative stress-mediated mitochondrial dysfunction stimulates the upregulation of mitochondrial heat shock protein 60 (HSP60) and ultimately initiates inflammatory pathways by activating pattern recognition receptors. HSP60 also could be a focal point in the development of a biomarker of neuroinflammation as HSP60 is known to be significantly elevated in diabetic patients. Interestingly, extracellular secretion of HSP60 via exosomes suggests that inflammation could spread to neighboring astrocytes by activating pattern recognition receptors of astrocytes via neuronal exosomes containing HSP60. A mechanism for linking neuron and astrocyte inflammation will provide new therapeutic approaches to modulate neuroinflammation and therefore potentially ameliorate the cognitive impairment in diabetic brains associated with vascular dementia.

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“…However, cells have protective mechanisms that allow them to minimize the risk of protein aggregation [7,8]. Small heat shock proteins (sHsps) belong to the family of molecular chaperones and protect cells against different kind of stresses, serving as a first line of defense in preventing protein aggregation [9][10][11]. One of the most important functions of sHsps is to prevent protein aggregation by binding of non-native or misfolded protein molecules and hold them in a folding-competent conformation.…”

Section: Introductionmentioning

confidence: 99%

Effect of Arginine on Chaperone-Like Activity of HspB6 and Monomeric 14-3-3ζ

Mikhaylova

Eronina

Chebotareva

et al. 2020

IJMS

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The effect of protein chaperones HspB6 and the monomeric form of the protein 14-3-3ζ (14-3-3ζm) on a test system based on thermal aggregation of UV-irradiated glycogen phosphorylase b (UV-Phb) at 37 °C and a constant ionic strength (0.15 M) was studied using dynamic light scattering. A significant increase in the anti-aggregation activity of HspB6 and 14-3-3ζm was demonstrated in the presence of 0.1 M arginine (Arg). To compare the effects of these chaperones on UV-Phb aggregation, the values of initial stoichiometry of the chaperone–target protein complex (S0) were used. The analysis of the S0 values shows that in the presence of Arg fewer chaperone subunits are needed to completely prevent aggregation of the UV-Phb subunit. The changes in the structures of HspB6 and 14-3-3ζm induced by binding of Arg were evaluated by the fluorescence spectroscopy and differential scanning calorimetry. It was suggested that Arg caused conformational changes in chaperone molecules, which led to a decrease in the thermal stability of protein chaperones and their destabilization.

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Small Heat Shock Proteins, Big Impact on Protein Aggregation in Neurodegenerative Disease

Cited by 124 publications

References 284 publications

Alzheimer cells on their way to derailment show selective changes in protein quality control network

Alzheimer cells on their way to derailment show selective changes in protein quality control network

Role of Mitochondrial Stress Protein HSP60 in Diabetes-Induced Neuroinflammation

Effect of Arginine on Chaperone-Like Activity of HspB6 and Monomeric 14-3-3ζ

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