αB-crystallin as a promising target in pathological conditions – A review

Maksimiuk, Marta; Sobiborowicz, Aleksandra; Tuzimek, Agnieszka; Deptała, Andrzej; Czerw, Aleksandra; Badowska-Kozakiewicz, Anna M.

doi:10.26444/aaem/111759

Cited by 12 publications

(7 citation statements)

References 83 publications

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“…Alike TG2, 14-3-3 protein plays a role in cell survival and the autophagy pathway and both their expression is altered in AD, suggesting a possible connection to neurodegeneration in AD [43,47]. Our findings also hint towards an Aβdriven process in which TG2 crosslinks alpha-B-crystallin, thereby modifying Aβ-induced cytotoxicity, as suggested previously [44,45], or hampering alpha-B-crystallin physiological functioning in recognizing misfolded proteins [48]. In addition, amongst the TG2 interactors common for APP23 and WT is the well-known AD risk factor and key player in both Aβ-pathophysiology and AD-related neurodegeneration [49,50], Apolipoprotein E (ApoE), which we recently identified as a substrate for TG2-catalyzed crosslinking [21].…”

Section: Discussionsupporting

confidence: 76%

The Transglutaminase-2 Interactome in the APP23 Mouse Model of Alzheimer’s Disease

Wilhelmus

Tonoli

Coveney

et al. 2022

Cells

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Amyloid-beta (Aβ) deposition in the brain is closely linked with the development of Alzheimer’s disease (AD). Unfortunately, therapies specifically targeting Aβ deposition have failed to reach their primary clinical endpoints, emphasizing the need to broaden the search strategy for alternative targets/mechanisms. Transglutaminase-2 (TG2) catalyzes post-translational modifications, is present in AD lesions and interacts with AD-associated proteins. However, an unbiased overview of TG2 interactors is lacking in both control and AD brain. Here we aimed to identify these interactors using a crossbreed of the AD-mimicking APP23 mouse model with wild type and TG2 knock-out (TG2−/−) mice. We found that absence of TG2 had no (statistically) significant effect on Aβ pathology, soluble brain levels of Aβ1–40 and Aβ1–42, and mRNA levels of TG family members compared to APP23 mice at 18 months of age. Quantitative proteomics and network analysis revealed a large cluster of TG2 interactors involved in synaptic transmission/assembly and cell adhesion in the APP23 brain typical of AD. Comparative proteomics of wild type and TG2−/− brains revealed a TG2-linked pathological proteome consistent with alterations in both pathways. Our data show that TG2 deletion leads to considerable network alterations consistent with a TG2 role in (dys)regulation of synaptic transmission and cell adhesion in APP23 brains.

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Section: Discussionsupporting

confidence: 76%

The Transglutaminase-2 Interactome in the APP23 Mouse Model of Alzheimer’s Disease

Wilhelmus

Tonoli

Coveney

et al. 2022

Cells

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“…In vivo αBcrystallin protected retinal ganglion cells against ischemia/reperfusion [26] and attenuated the inflammatory response in injured spinal cords [27] and experimental autoimmune encephalomyelitis [28]. The immunosuppressive function of αB-crystallin is also supported by its tumor-promoting role, although whether this is due to its extracellular or intracellular functions has not been investigated [29,30]. As with HSP27, αB-crystallin is upregulated during stress conditions [24], and may also be secreted by cells via exosome production [31].…”

Section: Proresolving Roles Of Intracellular Proteinsmentioning

confidence: 99%

Resolution Potential of Necrotic Cell Death Pathways

Mázló

Tang

Jenei

et al. 2022

IJMS

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During tissue damage caused by infection or sterile inflammation, not only damage-associated molecular patterns (DAMPs), but also resolution-associated molecular patterns (RAMPs) can be activated. These dying cell-associated factors stimulate immune cells localized in the tissue environment and induce the production of inflammatory mediators or specialized proresolving mediators (SPMs). Within the current prospect of science, apoptotic cell death is considered the main initiator of resolution. However, more RAMPs are likely to be released during necrotic cell death than during apoptosis, similar to what has been observed for DAMPs. The inflammatory potential of many regulated forms of necrotic cell death modalities, such as pyroptosis, necroptosis, ferroptosis, netosis, and parthanatos, have been widely studied in necroinflammation, but their possible role in resolution is less considered. In this review, we aim to summarize the relationship between necrotic cell death and resolution, as well as present the current available data regarding the involvement of certain forms of regulated necrotic cell death in necroresolution.

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“…HspB1, B5, and B6 have been shown to regulate angiogenesis ( Dimberg et al, 2008 ; Lee et al, 2012 ; Zhang et al, 2012 ; Tao et al, 2019 ), associated with tumor progression and neovascularization in retinal diseases. Several reports are available about the promotion of epithelial to mesenchymal transition in various cells/tissues by HspB1 and B5, which is a phenomenon that supports malignant cell metastasis ( Shiota et al, 2013 ; Cordonnier et al, 2015 ; Shi et al, 2017a ; Li et al, 2017 ; Chen et al, 2018a ; Han et al, 2018 ; Maksimiuk et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Small Heat Shock Proteins in Retinal Diseases

Rajeswaren

Wong

Yabroudi

et al. 2022

Front. Mol. Biosci.

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This review summarizes the latest findings on small heat shock proteins (sHsps) in three major retinal diseases: glaucoma, diabetic retinopathy, and age-related macular degeneration. A general description of the structure and major cellular functions of sHsps is provided in the introductory remarks. Their role in specific retinal diseases, highlighting their regulation, role in pathogenesis, and possible use as therapeutics, is discussed.

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αB-crystallin as a promising target in pathological conditions – A review

Cited by 12 publications

References 83 publications

The Transglutaminase-2 Interactome in the APP23 Mouse Model of Alzheimer’s Disease

The Transglutaminase-2 Interactome in the APP23 Mouse Model of Alzheimer’s Disease

Resolution Potential of Necrotic Cell Death Pathways

Small Heat Shock Proteins in Retinal Diseases

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