Institute of Ecology, Nature Research Centre, Vilnius, Lithuania.
Laser Research Center, Physics Faculty, Vilnius University, Vilnius, Lithuania.
PeerJ. 2022 Sep 15;10:e14025. doi: 10.7717/peerj.14025. eCollection 2022.
With the rapid development of nanotechnology, more and more nanoproducts are being released into the environment where they may both pose ecological risks and be toxic to living organisms. The ecotoxicological impact of quantum dots (QDs), a class of nanoparticles (NPs), on aquatic organisms is becoming an emerging issue, this due to their nano-specific properties, to the physico-chemical transformation in the environment and to the possible release of toxic metals from their structure such as Cd.
In this work, (i) spectroscopic measurements of commercially available Cd-based QDs (CdSe/ZnS-COOH) were made at various pH values (5.0 and 7.0) to study their interactions (at a concentration of 4 nm) with various strains of Gram-positive and Gram-negative gut bacteria after short-term exposure and (ii) the antibacterial efficacy of QDs and Cd (at a concentration 0.09-3.56 mM) against gut bacteria isolated from wild freshwater fry was studied at different temperatures (15 °C and 25 °C) and pH values (5.0 and 7.0) by applying a well-established disc diffusion assay.
Twenty-six gut bacterial isolates from wild fry were identified as spp., , , , , sp., sp., sp., and sp. Cd-based (CdSe/ZnS-COOH) QDs at a concentration of 4 nm were found to be stable in aqueous media (with pH 7.0) or starting to form aggregates (at pH 5.0), thus, apparently, did not release heavy metals (HMs) into the media over 48 h in conditions of light or dark and did not show antibacterial efficacy on the gut bacteria isolated from wild fry after short-term (9 h and 48 h) incubations. Cd was found to produce significant dose-dependent toxic effects on bacterial growth, and the size of the inhibition zones on some of the tested strains significantly correlated with temperature. The most sensitive and the most resistant to Cd were the Gram-positive bacteria, for which the minimum inhibitory concentration (MIC) values of Cd were 0.09-0.27 mM and 3.11-3.29 mM respectively and varied significantly between the tested temperatures (15 °C and 25 °C). The MIC values of Cd for the Gram-negative bacteria (18 out of 22 strains) ranged from 0.44 to 0.71 mM and did not differ significantly between the tested temperatures. Among the selected Gram-positive and Gram-negative strains, those with the higher sensitivity towards Cd also revealed relatively stronger signals of QDs photoluminescence (PL) when transferred after incubation into fresh medium without QDs. In addition, the formation of endogenous metalloporphyrins observed spectroscopically in some bacterial strains indicates certain differences in metabolic activity that may play a protective role against potential oxidative damage.
随着纳米技术的快速发展,越来越多的纳米产品被释放到环境中,它们可能对生态系统造成风险,并对生物产生毒性。量子点(QDs)作为一种纳米颗粒(NPs),对水生生物的生态毒理学影响正成为一个新出现的问题,这是由于其纳米特性、在环境中的物理化学转化以及其结构中可能释放出有毒金属,如 Cd。
在这项工作中,(i)在不同 pH 值(5.0 和 7.0)下对商业上可用的 Cd 基 QDs(CdSe/ZnS-COOH)进行了光谱测量,以研究它们在短时间暴露后与各种革兰氏阳性和革兰氏阴性肠道细菌的相互作用(浓度为 4nm),以及(ii)通过应用成熟的圆盘扩散测定法,研究了 QDs 和 Cd(浓度为 0.09-3.56mM)对从野生淡水鱼苗中分离出的肠道细菌的抗菌功效,研究了不同温度(15°C 和 25°C)和 pH 值(5.0 和 7.0)下的情况。
从野生鱼苗中分离出的 26 种肠道细菌被鉴定为 spp.、、、、、sp.、sp.、sp.、和 sp.。浓度为 4nm 的 Cd 基(CdSe/ZnS-COOH)QDs 在水溶液中(pH 值 7.0)或开始形成聚集体(pH 值 5.0)时被发现是稳定的,因此,显然在光照或黑暗条件下的 48 小时内没有将重金属(HM)释放到介质中,并且在短时间(9 小时和 48 小时)孵育后对从野生鱼苗中分离出的肠道细菌没有显示出抗菌功效。Cd 对细菌生长产生了显著的剂量依赖性毒性作用,并且一些测试菌株的抑制带大小与温度显著相关。最敏感和最能抵抗 Cd 的是革兰氏阳性菌,其 Cd 的最小抑制浓度(MIC)值分别为 0.09-0.27mM 和 3.11-3.29mM,并且在测试温度(15°C 和 25°C)之间差异显著。革兰氏阴性菌(22 株中的 18 株)的 Cd MIC 值范围为 0.44-0.71mM,并且在测试温度之间没有显著差异。在所选择的革兰氏阳性和革兰氏阴性菌株中,那些对 Cd 更敏感的菌株在转移到不含 QDs 的新鲜培养基中孵育后,其 QDs 光致发光(PL)信号也相对更强。此外,在一些细菌菌株中观察到的光谱学上形成的内源性金属卟啉表明,代谢活性存在某些差异,这可能对潜在的氧化损伤起到保护作用。
