intracellular level
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2021 ◽  
Author(s):  
Hyun-Soo Kim

Abstract Objective The aim of this study was to identify genes related to a freeze-thaw tolerance and to elucidate the tolerance mechanism in yeast Saccharomyces cerevisiae as an appropriate eukaryote model. Results In this study, one tolerant strain under exposure to freeze-thaw stress was isolated by screening a transposon-mediated mutant library and the disrupted gene was identified to be YCP4. In addition, this phenotype related to freeze-thaw tolerance was comfirmed by deletion and overexpressing of this corresponding gene. This mutant strain showed a freeze-thaw tolerance by the reduction in the intracellular level of reactive oxygen species (ROS) and the activation of the MSN2/4 and STRE-mediated genes such as CTT1 and HSP12. Conclusions Disruption of YCP4 in S. cerevisiae results in increased tolerance to freeze-thaw stress.


2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Junior Bernardo Molina-Hernandez ◽  
Antonio Aceto ◽  
Tonino Bucciarelli ◽  
Domenico Paludi ◽  
Luca Valbonetti ◽  
...  

AbstractThis work highlights how our silver ultra nanoclusters (ARGIRIUM-SUNc) hand-made synthesized, are very useful as a bactericide and anti-biofilm agent. The Argirium-SUNc effective antibacterial concentrations are very low (< 1 ppm) as compared to the corresponding values reported in the literature. Different bacterial defense mechanisms are observed dependent on ARGIRIUM-SUNc concentrations. Biochemical investigations (volatilome) have been performed to understand the pathways involved in cell death. By using fluorescence techniques and cell viability measurements we show, for the first time, that membrane depolarization and calcium intracellular level are both primary events in bacteria death. The ARGIRIUM-SUNc determined eradication of different biofilm at a concentration as low as 0.6 ppm. This suggests that the effect of the nanoparticles follows a common mechanism in different bacteria. It is highly probable that the chemical constitution of the crosslinks could be a key target in the disrupting mechanism of our nanoparticles. Since the biofilms and their constituents are essential for bacterial survival in contact with humans, the silver nanoparticles represent a logical target for new antibacterial treatments.


2021 ◽  
pp. 127-131
Author(s):  
Pauline Brousseau ◽  
Yves Payette ◽  
Helen Tryphonas ◽  
Barry Blakley ◽  
Herman Boermans ◽  
...  
Keyword(s):  

2021 ◽  
Author(s):  
Eunju Nam ◽  
Jiyong Park ◽  
Yuxi Lin ◽  
Hyunsu Do ◽  
Jinju Han ◽  
...  

<p>Intracellular <i>C</i>-terminal cleavage of the amyloid precursor protein (APP) is elevated in the brain of Alzheimer’s disease (AD). Emerging evidence proposes a pathological relationship between the production of a <i>C</i>-terminal APP fragment, called APP-C31, and the toxicity induced by amyloid-beta (Abeta) that is a major contributor towards AD; however, the interaction between the two peptides and the consequent impact of APP-C31 on Abeta-related toxicity were unknown thus far. Here we report the discovery that APP-C31 facilitates the aggregation of Abeta and aggravates its toxicity at the intracellular level, with escalating neurodegeneration. APP-C31 forms a hetero-dimer with Abeta through the contacts onto the <i>N</i>-terminal and self-recognition regions of Abeta and induces its conformational transition accelerating amyloid fibrillization. APP-C31 promotes the perinuclear and intranuclear deposition of enlarged Abeta aggregates and, consequently, damages the nucleus leading to apoptosis. Abeta-induced degeneration of neurites in human neurons is also intensified by APP-C31. Our studies demonstrate a new function of APP-C31 as an intracellular factor of the proteopathy found in AD.</p>


2021 ◽  
Author(s):  
Eunju Nam ◽  
Jiyong Park ◽  
Yuxi Lin ◽  
Hyunsu Do ◽  
Jinju Han ◽  
...  

<p>Intracellular <i>C</i>-terminal cleavage of the amyloid precursor protein (APP) is elevated in the brain of Alzheimer’s disease (AD). Emerging evidence proposes a pathological relationship between the production of a <i>C</i>-terminal APP fragment, called APP-C31, and the toxicity induced by amyloid-beta (Abeta) that is a major contributor towards AD; however, the interaction between the two peptides and the consequent impact of APP-C31 on Abeta-related toxicity were unknown thus far. Here we report the discovery that APP-C31 facilitates the aggregation of Abeta and aggravates its toxicity at the intracellular level, with escalating neurodegeneration. APP-C31 forms a hetero-dimer with Abeta through the contacts onto the <i>N</i>-terminal and self-recognition regions of Abeta and induces its conformational transition accelerating amyloid fibrillization. APP-C31 promotes the perinuclear and intranuclear deposition of enlarged Abeta aggregates and, consequently, damages the nucleus leading to apoptosis. Abeta-induced degeneration of neurites in human neurons is also intensified by APP-C31. Our studies demonstrate a new function of APP-C31 as an intracellular factor of the proteopathy found in AD.</p>


Author(s):  
Yumiko Akazawa ◽  
Hiroyuki Yoshida ◽  
Yoko Endo ◽  
Jun Sugita ◽  
Masafumi Yakumaru ◽  
...  

Abstract Regulation of hyaluronan (HA) is important for the maintenance of epidermal homeostasis. Here we examined the mechanism by which 1-ethyl-β-N-acetylglucosaminide (β-NAG2), a newly developed N-acetylglucosamine (NAG) derivative, increases HA production in cultured human epidermal keratinocytes. When keratinocytes were treated with β-NAG2, mRNA expression of HA synthase 3, which is responsible for HA production in human keratinocytes, was not influenced, but the intracellular level of UDP-NAG, a substrate used for HA synthesis, was increased. By using a synthetic substrate for β-N-acetylglucosaminidase (β-NAGase), keratinocytes were found to possess β-NAGase activity, and treatment of o-(2-acetamido-2-deoxy-D-glucopyranosylidene) amino N-phenyl carbamate (PUGNAc), an inhibitor of β-NAGase, abolished the release of NAG from β-NAG2 in keratinocytes. Furthermore, PUGNAc attenuated the β-NAG2-induced intracellular UDP-NAG and HA production in keratinocytes. These results suggest that β-NAG2 is converted to NAG by endogenous β-NAGase in keratinocytes, and the resulting NAG is further metabolized to UDP-NAG and utilized for HA production.


Viruses ◽  
2021 ◽  
Vol 13 (4) ◽  
pp. 613
Author(s):  
Jing Zhang ◽  
Yongxiang Wang ◽  
Shuwen Fu ◽  
Quan Yuan ◽  
Qianru Wang ◽  
...  

Hepatitis B virus (HBV) expresses co-terminal large (L), middle (M), and small (S) envelope proteins. S protein drives virion and subviral particle secretion, whereas L protein inhibits subviral particle secretion but coordinates virion morphogenesis. We previously found that preventing S protein expression from a subgenomic construct eliminated M protein. The present study further examined impact of S protein on L and M proteins. Mutations were introduced to subgenomic construct of genotype A or 1.1mer replication construct of genotype A or D, and viral proteins were analyzed from transfected Huh7 cells. Mutating S gene ATG to prevent expression of full-length S protein eliminated M protein, reduced intracellular level of L protein despite its blocked secretion, and generated a truncated S protein through translation initiation from a downstream ATG. Truncated S protein was secretion deficient and could inhibit secretion of L, M, S proteins from wild-type constructs. Providing full-length S protein in trans rescued L protein secretion and increased its intracellular level from mutants of lost S gene ATG. Lost core protein expression reduced all the three envelope proteins. In conclusion, full-length S protein could sustain intracellular and extracellular L and M proteins, while truncated S protein could block subviral particle secretion.


Reproduction ◽  
2021 ◽  
Author(s):  
Luiz Cordeiro ◽  
Cindy Riou ◽  
Rustem Uzbekov ◽  
Nadine Gérard

In birds, oviductal cells play a crucial role in the storage of sperm via cell-to-cell communication including extracellular vesicles (EV). We developed a culture of oviductal organoids enriched in sperm storage tubules (SSTorg) to demonstrate the release of EV. SSTorg were cultured for 24h and added to live (LV), frozen (FZ) and lysed (LY) avian sperm, seminal plasma (SP), avian sperm conditioned medium (CM), or bovine sperm (BV). Western blot demonstrated that SSTorg contained EV protein markers, valosin-containing protein (VCP), heat shock proteins (HSP90A, HSPA8), and annexins (ANXA2, A4, A5). Co-culture with LV significantly decreased the intracellular level of all these proteins except HSPA8. Immunohistochemistry confirmed this result for VCP and ANXA4. LY, CM, SP and BV had no effect on the intracellular level of these proteins, whereas FZ induced a decrease in ANXA2, A4 and A5. In culture media, VCP and HSP90 signals were detected in the presence of LV, FZ, BV, LY, CM and SP, but no ANXA4 signal was observed in the presence of FZ and SP. ANXA2 and A5 were only detected in the presence of LV. The most abundant EV were less than 150 nm in diameter. ANXA4 and A5 were more abundant in EV isolated from the SSTorg culture medium. This study provides a useful culture system for studying interactions between SST cells and sperm. We demonstrated the release of EV by SSTorg in vitro, and its regulation by sperm. This may be of crucial importance for sperm during storage in hens.


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