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II型金属半胱氨酸蛋白酶参与单细胞绿藻的细胞应激,但不参与细胞死亡。

Type II-Metacaspases are involved in cell stress but not in cell death in the unicellular green alga .

作者信息

Mata M Teresa, Palma Armando, García-Gómez Candela, López-Parages María, Vázquez Víctor, Cheng-Sánchez Iván, Sarabia Francisco, López-Figueroa Félix, Jiménez Carlos, Segovia María

机构信息

Department of Ecology, Faculty of Sciences, University of Málaga, Blvd. Louis Pasteur s / n, 29071-Málaga, Spain.

Present address: Antofagasta Bioinnovation Center (CBIA), Department of Biotechnology, Faculty of Marine Sciences and Biological Resources. University of Antofagasta, Antofagasta, Chile.

出版信息

Microb Cell. 2019 Oct 7;6(11):494-508. doi: 10.15698/mic2019.11.696.

DOI:10.15698/mic2019.11.696
PMID:31799323
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6859423/
Abstract

Ultraviolet radiation (UVR; 280-400 nm) has a great impact on aquatic ecosystems by affecting ecophysiological and biogeochemical processes as a consequence of the global change scenario generated by anthropogenic activities. We studied the effect of PAR (P)+UVA (A)+UVB (B) i.e. PAB, on the molecular physiology of the unicellular green alga for six days. We assessed the relationship between the triggered UVR stress response and metacaspases and caspase-like (CL)activities, which are proteases denoted to participate in cell death (CD) in phytoplankton. UVR inhibited cell growth and chlorophyll a fluorescence but did not cause cell death. Western blot analyses reflected that Type-II metacaspases (MCs) are present and appear to be involved in UVR induced-cell stress but not in dark-induced CD in . Enzyme kinetics revealed that cleavage of the MCs-reporter substrates RVRR, QRR, GRR, LKR, HEK, and VLK was 10-fold higher than WEHD, DEVD, IETD, and LETD CLs-substrates. The lowest apparent Michaelis-Menten constants (K ) corresponded to RVRRase (37.5 μM) indicating a high affinity by the RVRR substrate. The inhibition of enzymatic activities by using inhibitors with different target sites for hydrolyses demonstrated that from all of the R/ Kase activities only RVRRase was a potential candidate for being a metacaspase. In parallel, zymograms and peptide-mass fingerprinting analyses revealed the identities of such Rase activities suggesting an indirect evidence of possible natural physiological substrates of MCs. We present evidence of type II-MCs not being involved in CD in , but rather in survival strategies under the stressful irradiance conditions applied in this study.

摘要

紫外线辐射(UVR;280 - 400纳米)由于人为活动产生的全球变化情景,通过影响生态生理和生物地球化学过程,对水生生态系统产生重大影响。我们研究了光合有效辐射(PAR)+紫外线A(UVA)+紫外线B(UVB)即PAB,对单细胞绿藻分子生理学的影响,为期六天。我们评估了引发的UVR应激反应与参与浮游植物细胞死亡(CD)的metacaspases和类caspase(CL)活性之间的关系。UVR抑制了细胞生长和叶绿素a荧光,但未导致细胞死亡。蛋白质免疫印迹分析表明,II型metacaspases(MCs)存在,似乎参与UVR诱导的细胞应激,但不参与黑暗诱导的细胞死亡。酶动力学表明,MCs报告底物RVRR、QRR、GRR、LKR、HEK和VLK的切割比WEHD、DEVD、IETD和LETD CLs底物高10倍。最低的表观米氏常数(K)对应于RVRRase(37.5 μM),表明对RVRR底物具有高亲和力。使用具有不同水解靶位点的抑制剂对酶活性的抑制表明,在所有的R/Kase活性中,只有RVRRase是metacaspase的潜在候选者。同时,酶谱和肽质量指纹分析揭示了此类Rase活性的身份,这暗示了MCs可能的天然生理底物的间接证据。我们提供的证据表明,II型MCs不参与细胞死亡,而是参与本研究中施加的应激辐照条件下的生存策略。

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