F-53B胁迫下污水厌氧处理系统及微生物群落的响应

通过构建厌氧反应体系,评估低浓度(1mg/L)和高浓度(10mg/L)氯化多氟醚磺酸盐(F-53B)胁迫下,厌氧处理系统出水水质、污泥性状和细菌群落的响应特征.结果表明,在F-53B的胁迫下,COD、氮(TN、NH_(4)^(+)-N)和磷(TP、PO_(4)^(3-)-P)在出水中的含量会升高,而污泥相对生物量(MLVSS/MLSS)则出现下降,且F-53B的浓度越高影响越大.高通量测序分析发现,相较于对照组(0mg/L F-53B),仅高浓度F-53B胁迫下细菌群落的多样性(ACE、Chao1和PD指数)出现了显著下降.同时,研究还发现,随着高浓度F-53B暴露时间的延长,厚壁菌门的相对丰度逐渐增大,而变形菌门、拟杆菌门和硝化螺旋菌门的相对丰度逐渐降低.此外,基于FAPROTAX功能预测分析发现,F-53B胁迫下微生物表现出更低的氮(N)代谢潜力和更高的化能异养和发酵能力.冗余分析(RDA)表明,厚壁菌门主要受F-53B的正向影响,并与TN和NH_(4)^(+)-N呈正相关;而变形菌门受F-53B的负向影响,并与COD、TP和PO_(4)^(3-)-P呈正相关.揭示了新型氟化物—F-53B对污水厌氧处理系统的胁迫机制.

F-53B对人肝癌细胞HepG2和Hep3B的细胞毒性效应研究

研究氯化多氟烷基醚磺酸(6:2 chlorinated polyfluorinated ether sulfonate,商品名F-53B)对人肝癌细胞HepG2和Hep3B的毒性效应,并初步探讨其作用机制。选择常用的全氟辛烷磺酸(perfluorooctane sulfonate,PFOS)和全氟辛酸(perfluorooctanoic acid,PFOA)与F-53B同时进行毒性评估,检测细胞形态、细胞活力、凋亡、活性氧(reactive oxygen species,ROS),过氧化氢酶(catalase,CAT)、超氧化物歧化酶(superoxide dismutase,SOD)、凋亡相关因子(Bax、Caspase-3、PARP、Caspase-9等)表达水平。F-53B对细胞活性具有明显的抑制作用且毒力显著大于PFOS,并呈剂量依赖性;F-53B显著诱导ROS释放和细胞凋亡,并降低了抗氧化酶CAT活性;进一步证明促凋亡相关因子(Bax、Caspase-3、PARP、Caspase-9)表达增加,抑制凋亡因子Bcl-2表达水平降低。F-53B可诱导细胞凋亡和氧化应激,且线粒体内在途径可能参与细胞毒性作用。

基于^(1)H NMR的代谢组学方法研究F-53B暴露对大鼠血清代谢表型的影响

氯化多氟醚磺酸盐(chlorinated polyfluorinated ether sulfonic acids,F-53B)是全氟烷基磺酸(perfluorooctane sulfonate,PFOS)的替代品.大量毒理学实验证明F-53B具有类似PFOS的生物持久性及毒性,但目前国内外尚未报道过关于F-53B的生物代谢扰动机制研究.本研究基于^(1)H-NMR分析了F-53B(50μg·kg^(-1)·d^(-1))暴露28 d后的大鼠血清代谢扰动情况,结合多元统计分析,分析相关差异代谢物和代谢通路变化.暴露组检测到17个差异代谢物,主要包括氨基酸代谢物和碳水化合物代谢物.3条氨基酸代谢通路受到显著影响,包括丙氨酸、天冬氨酸和谷氨酸代谢,组氨酸代谢,苯丙氨酸,酪氨酸和色氨酸生物合成.糖代谢和脂质代谢受到影响.研究结果表明大鼠暴露于F-53B后可能会影响血清的氧化应激反应,引发炎症,心血管疾病,糖尿病和高血压,引起神经毒性且抑制大脑发育.本研究对F-53B暴露产生的代谢扰动进行深入且全面的探究,为评估F-53B的健康风险提供了科学依据.

F-53B经饮水慢性暴露对SD大鼠甲状腺功能影响的研究

目的探讨全氟烷基醚磺酸盐(F-53B)经饮水慢性暴露对SD大鼠甲状腺功能的影响。方法将40只SPF级雄性SD大鼠随机分为溶剂对照组(二甲亚砜)和暴露组(1、10、100、1000μg/L F-53B),每组8只,各组二甲亚砜终浓度均为0.004%(体积分数),从2020年6月起自由饮水暴露F-53B 6个月。检测大鼠血清中总胆固醇(TCHO)、高密度脂蛋白胆固醇(HDL-C)和低密度脂蛋白胆固醇(LDL-C)含量,分析血清四碘甲状腺原氨酸(T4)、三碘甲状腺原氨酸(T3)、促甲状腺激素(TSH)、促甲状腺素释放激素(TRH)和甲状腺过氧化物酶抗体(TPO-Ab)激素水平;进行甲状腺组织病理学观察。结果F-53B暴露6个月后,各暴露组大鼠体重、甲状腺重量和脏器系数差异无统计学意义(F值为0.61~2.20,P>0.05)。与对照组相比,血清中TCHO、HDL-C、LDL-C在各暴露组中差异并无统计学意义(F值为0.26~0.84,P>0.05);甲状腺相关激素在各暴露组中差异具有统计学意义(F值为30.4~131.3,P<0.05),其中T3、T4水平随着暴露剂量的升高而降低,TSH、TRH和TPO-Ab则呈剂量依赖性升高,10、100和1000μg/L暴露组差异有统计学意义(校正后P<0.05)。病理结果显示,最高剂量组大鼠甲状腺组织呈现轻度甲状腺滤泡增生。结论F-53B慢性暴露可导致大鼠甲状腺组织的结构性改变和功能性异常,可能与甲状腺激素合成过程中碘甲状腺原氨酸的耦合受到干扰有关。

HPLC-MS/MS法分析水介质下F-53B的含量

建立HPLC-MS/MS方法用于水介质中F-53B的含量检测。采用高效液相色谱-串联质谱法,试样用曝气生态水溶解,使用Agilent 1290-6470A LC/MS/MS测定,以20%水(0.1%甲酸)+80%乙腈为流动相,Eclipse plus C 18 RRHD柱,外标法定量。该分析方法的F-53B相关系数为0.9998,变异系数为0.64%,平均回收率分别101.4%。该方法操作简单,准确度、精密度及灵敏度均满足要求,可用于F-53B于水中含量检测。为F-53B在水环境中的检测,提供了一种可靠的方案。

Repairing of rutin to the toxicity of combined F-53B and chromium pollution on the biofilm formed by Pseudomonas aeruginosa

The wastewater discharge from the process of chrome plating,which contains 6:2 chlorinated polyfluorinated ether sulfonate(F-53B)and chromium(Cr),may be toxic to biofilm.In this study we found that the biofilm formed by Pseudomonas aeruginosa PAO1 was inhibited by exposure to a combination of F-53B and Cr(VI).The combined pollution damaged the cell membranes and the structure of the biofilm,and inhibited the production of the Pseudomonas quinolone-based signal,which affected biofilm formation.Moreover,the secretion of extracellular polymeric substances decreased as a result of this combined exposure.Exposure to F-53B and Cr(VI)individually or in combination could induce the excessive accumulation of intracellular reactive oxygen species(ROS),and the ROS positive rate of the bacteria increased under the treatment with 0.2 mmol/L of Cr(VI)and 250 nmol/L of F-53B,respectively.In addition,the activities of superoxide dismutase(SOD)and catalase(CAT)were enhanced for scavenging ROS in the bacteria that were exposed to Cr(VI)and F-53B.As an antioxidant,rutin was used to repair the toxicity of Cr(VI)and F-53B towards the biofilm formed by the bacteria.When rutin was added to the bacteria medium,with either Cr(VI)or F-53B as pollutant,or with the combined pollutants,the extracellular protein content of the bacteria recovered to 0.84,0.94,and 0.85 times that of the control,respectively.Meanwhile,the accumulation of ROS and the activities of SOD and CAT decreased,which indicated that the addition of rutin can alleviate the oxidative stress and promote the antioxidant stress system.

电镀行业排放重金属及全氟化合物时空分布及风险评估

随着我国经济高速增长,电镀行业也进入快速发展期,电镀过程中产生的污染物日益受到关注.本文对电镀过程中不同环节产生的污染物进行探究,识别出重金属、全氟化合物等特征污染物.通过对全国不同地区电镀厂污染物排放的系统分析,阐明生产工艺、运行时间等对污染物时空分布的影响,发现检测出高浓度重金属、全氟辛烷磺酸(perfluorooctane sulphonate,PFOS)以及全氟烷基醚磺酸盐(6:2 chlorinated polyfluorinated ether sulfonate,F-53B)的电镀厂集中分布在长三角、珠三角和京津冀等经济区.与《土壤环境质量建设用地土壤污染风险管控标准》(GB36600—2018)建设用地第二类用地土壤污染风险筛选值对比,Ni和Cr(Ⅵ)超标较为严重,超标倍数最高达9.24倍和1965倍,超标点位均位于电镀场地内部,尤其是电镀车间及废水处理区域.建厂时间越早的电镀厂因管理处置措施不完善等原因检测出的污染物浓度越高.对于全氟化合物,电镀园区污水中PFOS和F-53B的含量较高,达到mg·L^(−1)水平,非电镀园区水体中PFOS和F-53B的含量在pg·L^(−1)至ng·L^(−1)水平.在同一地区随着年度的增长,PFOS和F-53B的含量也在增加,F-53B的增长速度远高于PFOS.对重金属和PFOS进行风险评估,发现单个重金属的潜在生态风险指数E_(r)^(i)平均值排序为Cd>Hg>Ni>Cu>Cr>Pb>Zn>As,这与不同地区背景值差异有关.地表水中PFOS的风险熵RQ值为0—7.5,存在健康风险的点位分布在电镀园区内部及周边,非电镀园区附近的地表水均无健康风险.本研究可为电镀场地污染控制以及新污染物的防控提供支撑.

Effects on Synaptic Plasticity Markers in Fetal Mice and HT22 Neurons upon F‑53B Exposure:The Role of PKA Cytoplasmic Retention

Chlorinated polyfluorinated ether sulfonate(F-53B),a chromium-fog depressant widely utilized as an alternative to perfluorooctanesulfonate,can transfer from mother to fetus.Recent research has demonstrated that prenatal exposure to F-53B results in synaptic damage in weaning mice.However,the mechanism underpinning F-53B-triggered synaptic damage during fetal development remains unclear.This study aims to investigate the role of the protein kinase A(PKA)/cAMP response element-binding protein(CREB)pathway,a crucial signaling mechanism known as“synaptic switch”,in the early neurotoxicity of F-53B exposure both in vivo and in vitro.Here,C57BL/6 fetal mice were subjected to exposure to F-53B(0,4,and 40μg/L)from gestation days(GD)0 to 14 to evaluate nerve injury prior to delivery.HT22 neurons exposed to F-53B(0,0.016,0.08,0.4,2,and 10μmol/L)for 24 h were utilized to elucidate the underlying mechanism.Our results demonstrated that F-53B significantly increased the fluorescence intensity of Nestin(a neural stem cell marker)in the fetal brain hippocampus(GD14).Subsequently,we found that F-53B downregulated the expression of synaptic plasticity markers(SYP,GAP43,and BDNF)in the fetal brain and HT22 neurons.Further molecular docking analysis revealed that F-53B fits into the ligand-binding pockets of PKA and CREB1.Results showed that F-53B inhibited the translocation of PKA protein from the cytoplasm to the neuronal nuclei and reduced the levels of PKA,CREB1,p-PKA(α/β/γ)-Thr197,and p-CREB1-S133 in the nucleus.Furthermore,the expression of synaptic plasticity markers altered by F-53B could be reversed by a PKA agonist and was intensified by a PKA antagonist.In summary,our findings suggest that intrauterine exposure to F-53B can weaken the expression of synaptic plasticity markers in the fetal brain,with this neurotoxicity being mediated by the cytoplasmic retention of PKA.

氯代多氟醚基磺酸对稀有鮈鲫肝脏组织损伤及其毒理学机制研究

6:2氯代多氟醚基磺酸(F-53B)作为全氟辛烷磺酸(perfluorooctane sulfonate,PFOS)的替代品,已在金属电镀行业使用了40多年,这种普遍使用导致其在环境、野生动物和人体中广泛检出,且有研究表明F-53B具有肝细胞毒性作用,但其脂毒性机制尚不明确。将5月龄稀有鮈鲫暴露于0、10和200μg·L^(-1)28 d,以蛋白质组学作为研究手段,探究F-53B对稀有鮈鲫肝脏的脂毒性效应机制。在28 d暴露后,200μg·L^(-1)处理组观察到明显的血脂异常,肝脏蛋白组分析表明与脂质代谢相关的途径受到显著影响,与对照组相比,其中10μg·L^(-1)组与脂质代谢相关的上调蛋白有19个,下调的有4个,200μg·L^(-1)组上调蛋白有15个,下调蛋白9个,共同上调蛋白12个,下调蛋白2个,涉及脂肪酸降解、脂肪酸氧化、转运途径中酶的上调。同时PPAR信号通路参与了F-53B诱导的脂质代谢紊乱,表现为对PPAR的3种亚型的蛋白表达均产生激活作用,导致成骨/成脂分化失衡。这表明F-53B可破坏PPAR信号通路,破坏稀有鮈鲫的脂质稳态,结果可为F-53B脂毒作用机制研究提供新的思路。

农田土壤中全氟辛烷磺酸污染及其对作物的毒性作用

全氟辛烷磺酸(PFOS)及其替代品6:2 氯代多氟烷基醚磺酸(商品名F-53B)是应用最广泛的一类全(多)氟烷基化合物(PFASs)。目前PFOS和F-53B在土壤中被广泛检出,已成为农田土壤中含量较高的有机污染物。土壤PFOS和F-53B污染可通过干扰土壤菌群及土壤软体动物的活力而降低土壤肥力。农田中的PFOS及F-53B被吸收进入作物植株后能够破坏作物的光合作用、诱发作物产生氧化胁迫、干扰作物的糖脂代谢,并最终干扰作物生长发育和生理生化。作物中的PFOS及F-53B还可通过食物链进入人体,从而对人体健康造成威胁。鉴于目前的研究结论,需要管控PFOS及其替代品F-53B的土壤污染,并重点针对PFOS及F-53B通过作物进入人体的风险进行深入研究,明确PFOS及F-53B对作物的毒性作用及其对人体健康的潜在危害。

UPLC-Q Orbitrap MS法同时测定中药材地龙中43个全/多氟烷基类化合物

目的:建立地龙药材中43个痕量多残留全/多氟烷基类化合物(PFAS)的UPLC-Q Orbitrap MS同时测定方法。方法:地龙药材,加氯化钠和多种同位素内标,经含0.2%甲酸乙腈超声20 min结合高速振荡10 min提取;冷冻离心,分取上清液,浓缩至约0.5 mL,加含0.05%甲酸的40%甲醇水溶液5 mL,混合均匀;经混合型弱阴离子交换固相萃取柱(6 mL,150 mg)净化;以甲醇和0.5%氨水甲醇各3 mL依次洗脱,收集洗脱液,氮气吹至近干,分别以0.5 mL甲醇复溶,冷冻离心后取上清液,采用超高效液相色谱-四极杆/静电场轨道阱质谱(UPLC-Q Orbitrap MS)法对地龙药材中43个PFAS进行同时测定。色谱-质谱条件:采用ACE EXCEL 2 C_(18)(150 mm×2.1 mm,2μm)色谱柱分离,以5 mmol·L^(-1)甲酸铵溶液-乙睛为流动相,梯度洗脱,流速0.3 mL·min^(-1),柱温35℃,进样体积2μL;电喷雾负离子化四极杆/静电场轨道阱质谱法m/z 100~1000全扫描检测,提取目标离子内标法定量。结果:43个PFAS同时测定,专属性强,线性关系良好(r>0.995),加样回收率在68.3%~121.4%,重复性RSD为3.5%~15.0%,检测限和定量限分别为0.01~0.15μg·kg^(-1)和0.02~0.5μg·kg^(-1)。20批地龙样品中,共检出22个PFAS痕量残留。结论:建立的地龙药材中43个PFAS痕量残留的UPLC-Q Orbitrap MS同时测定法灵敏准确,适用于地龙和基质相似中药材中PFAS的日常监测,及其质量风险的评估与控制。

上海市电镀企业周边地表水中全氟和多氟烷基物质(PFASs)的污染特征

电镀是全氟和多氟烷基物质(PFASs)污染的主要来源之一.目前关于电镀企业周边地表水中的PFASs污染特征报道较为缺乏.为了解上海市电镀企业周边地表水中PFASs的污染特征与生态风险水平,选取全氟烷基羧酸(PFCAs)、全氟烷基磺酸(PFSAs)、磺酸调聚物以及1-氯-全氟烷基醚磺酸钾(F-53B)等26种典型PFASs为对象,调查其在上海市电镀企业周边地表水中的污染特征,探讨其污染来源并开展初步的生态风险评估.结果表明:上海市电镀企业周边地表水中ΣPFASs浓度范围为93.3~1334 ng/L,其中大部分地表水中ΣPFASs浓度小于300 ng/L,污染最严重的地表水分布于金山区,ΣPFASs浓度是背景值的14.8倍.地表水中全氟辛酸(PFOA)为普遍的主要污染物,其次为短链PFCAs和PFSAs.1H,1H,2H,2H-全氟辛烷磺酸钠(6∶2 FTS)和F-53B也普遍存在于地表水中,但只在少数地表水中具有较高浓度,尤其是F-53B,其中金山区采样点浓度高达968 ng/L,主要与镀铬业务有关.这表明短链PFCAs和PFSAs、PFOA、6∶2 FTS及F-53B等均可能已应用于电镀领域.据污染源特征分析,地表水中PFASs除了受电镀行业的污染外,同时还可能来源于表面处理工业、前体化合物生物降解等.初步的生态风险评估结果表明,上海市大部分电镀企业周边地表水中生态风险较低,但个别镀铬企业周边地表水中F-53B污染可能产生高生态风险.研究显示,上海市电镀企业周边地表水中存在一定程度的PFASs污染,污染水平与特征差异较大;其中PFOA是电镀企业周边地表水中普遍存在的主要污染物,但生态风险较低;而F-53B在个别采样点中具有高残留、高生态风险,需加强污染防控.

Occurrence,removal and emission of per-and polyfluorinated alkyl substances(PFASs)from chrome plating industry:A case study in Southeast China

Per-and polyfluorinated alkyl substances(PFASs)have been used since the 1950s as chrome mist suppressant(CMS)in the electroplating industry.In this study,various samples within an electroplating factory,the related wastewater treatment facilities and surrounding environment at Hangzhou Bay in Southeast China were investigated for the occurrence and removal of PFASs.PFOS and 6:2 Cl-PFAES are predominant compounds in the samples.The PFASs in the bath solution of the workshops had some differences from the final releases,partly because of the historic usage and memory effects.PFOS and 6:2 Cl-PFAES were found in high concentration(5500 and 154.5 mg/L in influent,795 and 985 mg/L in effluent)in the electroplating Wastewater Treatment Plant(WWTP).The ultrafiltration and reverse osmosis(RO)treatment had a significant removal efficiency(74%e100%).On the other hand the reduction,precipitation and anaerobic/anoxic/oxic(A2/O)treatment had poor removal efficiency for PFASs.The receiving river samples had levels of PFASs between 300 and 1500 ng/L,and the concentrations of PFOS and 6:2 Cl-PFAES decreased with increasing distance to the municipal WWTP outlet due to dilution.The concentrations of PFOA in the river water samples were also high but might originate from other sources.The relevant ecological risk is noteworthy,especially for PFOS and PFOA for which limits have been defined.There is an urgent need to control plating industries in China and worldwide.Currently a GEF project related to Stockholm Convention implementation has reduced and possibly eliminated PFOS use and release in the plating industry in China.In addition,it will be important to evaluate and control the alternatives used.