Metabolism of benzo[a]pyrene in peroxynitrite/Fe(Ⅲ) porphyrin system

The peroxynitrite/porphyrin biomimetic system was established to investigate the effects of peroxynitrite on benzo[a]pyrene (B[a]P) metabolism. Through the comparison of three model systems consisting of different iron porphyrins, we found that the peroxynitrite/T(p-Cl)PPFeCl system showed the highest catalytic efficiency in the metabolism of B[a]P. We analyzed the B[a]P metabolites produced from this system by RP-HPLC method and firstly identified the formation of nitrobenzo[a]pyrenes which are the special metabolites of B[a]P induced by peroxynitrite.     

Metabolism of benzo[a]pyrene in peroxynitrite/Fe(III) porphyrin system

The peroxynitrite/porphyrin biomimetic system was established to investigate the effects of peroxynitrite on benzo[a]pyrene (B[a]P) metabolism. Three model systems consisting of different iron porphyrins were compared, and the results showed that the peroxynitrite/T(p-Cl)PPFeCl system was the highest catalytic efficiency in the metabolism of B[a]P. We analyzed the B[a]P metabolites produced from this system by RP-HPLC method and firstly identified the formation of nitrobenzo[a]pyrenes which are the special metabolites of B[a]P induced by peroxynitrite.     

多环芳烃共代谢对苯并[a]蒽微生物降解的影响及机制

利用14C同位素示踪技术,研究土壤中菲、蒽、芘3种底物对苯并[a]蒽(BaA)环境归趋的影响,高通量测序解析细菌群落响应.结果表明,3种底物均可以促进BaA的降解,添加蒽作为共代谢底物后,BaA矿化率比对照提高了2.5％,而添加菲、芘时,14C在土壤的结合态比对照升高4％,达总添加量的31％.共代谢底物改变了细菌共生网...     

Photochemical behavior of benzo[a]pyrene on soil surfaces under UV light irradiation

The rates of photodegradation and photocatalysis of benzo [a]pyrene （BaP） on soil surfaces under UV light have been studied. Different parameters such as temperature, soil particle sizes, and soil depth responsible for photodegradation, catalyst loads and wavelength of UV irradiation blamed for photocatalysis have been monitored. The results obtained indicated that BaP photodegradation follows pseudo-first-order kinetics. BaP photodegradation was the fastest at 30℃ . The rates of BaP photodegradation at different soil particle size followed the order： less than 1 mm〉less than 0.45 mm〉less than 0.25 mm. When the soil depth increased from 1 mm to 4 ram, the half-life increased from 13.23 d to 17.73 d. The additions of TiO2 or Fe2O3 accelerated the photodegradation of BaP, and the photocatalysis of BaP follows pseudo-first-order kinetics. Changes in catalyst loads of TiO2 （0.5%, 1%, 2%, and 3% （wt）） or Fe203 （2%, 5%, 7%, and 10% （wt）） did not significantly affect the degradation rates. Both BaP photocatalysis in the presence of TiO2 and Fe2O3 were the fastest at 254 nm UV irradiation.     

Combined effect of tributyltin and benzo[a] pyrene on the levels of sex hormone and vitellogenin in female Sebastiscus marmoratus

Tributyltin（TBT）, an organometal used as an antifouling biocide, has been reported to induce masculinization of fish. Benzo [a]pyrene （BaP）, a widespread carcinogenic polycyclic aromatic hydrocarbon, has been reported that its microsomal metabolites can produce an estrogenic response when tested in vitro. This study was therefore designed to examine the potential in vivo influence of TBT, BaP and their mixture on sex hormone levels in serum of Sebastiscus marmoratus, which were given 2 separate intraperitoneally （ip） injections（a single injection every 7 d） of TBT（0.5, 1, 5 and 10 mg/kg）, BaP（0.5, 1, 5 and 10 mg/kg）, or both in combination（0.5, 1, 5 and 10 mg/kg）; control fish received olive oil vehicle only. Six days after the 2nd injection, serum samples were collected and analyzed for sex hormone levels and alkali labile protein phosphorus （ALPP）, which is related to the yolk precursor protein vitellogenin. The pollutants at all doses significantly reduced serum testosterone, estradiol and ALPP content after 2 injections compared with the corresponding controls. The reduction of the estradiol levels should be response for the decrease of the vitellogenin levels. The results in the present study suggested that aromatase seems not the major target acted by TBT and BaP in fish. This study demonstrated that TBT or BaP exposure both inhibit the reproductive potential in female Sebastiscus marmoratus. Combined effect of TBT and BaP on the serum testosterone, estradiol and ALPP was not antagonism from the anticipation.     

二甲基苯蒽和苯并(a)芘对小鼠肝脏金属硫蛋白及氧化损伤的诱导作用

观察两种致癌性多环芳烃化合物二甲基苯蒽（DMBA）和苯并（a)芘（BaP）对小鼠肝脏脂质过氧化产物和金属硫蛋白含量的影响。选用雄性C57BL／OLA129小鼠，观察DMBA和BaP各50mg/kg一次腹腔注射染毒后24、48、72和144h后的动物肝脏重量、金属硫蛋白（MT）含量和脂质过氧化程度的变化。MT测定采用镉－血红蛋白亲和分析法；脂质过氧化指标为硫代巴比妥酸测定丙二醛法。结果表明，DMBA和BaP均能引起小鼠肝脏重量增加、MT含量增加和MDA含量增加。随着DMBA和BaP染毒后的时间延长小鼠肝脏的重量不断增加，呈现时间效应关系。小鼠肝脏MT的含量在染毒后24和48h后明显增加1倍。肝脏MDA的含量增加在染毒后24h后达到高峰。本研究观察到DMBA和Bap可以MT增加。MT的增加与MDA的增加呈现一定平行的关。提示MT诱导可能与多环芳烃化合物所致的氧化损伤有关。     

苯并[a]芘降解菌的分离筛选及其降解条件的研究

从被石油污染的土壤样品中,以苯并[a]芘为唯一碳源反复驯化,分离筛选出1株高效降解苯并[a]芘的菌株JL 14 .经形态及生理生化特征分析,初步鉴定属于氮单胞菌属(Azomonas) .菌株JL 14在苯并[a]芘浓度为5mg·L- 1 ,2 8℃振荡培养10d ,苯并[a]芘的降解率达到48. 9% .培养基初始pH值分别为4、6、8、10时,2 8℃振荡培养10d ,苯并[a]芘的降解率分别为7 1% ,2 4 8% ,49 6%和2 5 9% .JL 14在苯并[a]芘浓度分别为10mg·L- 1 与2 0mg·L- 1 的条件下,2 8℃振荡培养10d ,苯并[a]芘的降解率分别为3 8. 2 %与2 7. 6% .Zn2 + (2 0 0mg·L- 1 )、Cd2 + (5 0mg·L- 1 )与Pb2 + (2 0 0mg·L- 1 )不影响JL 14对苯并[a]芘的降解作用,但Cu2 + (5 0mg·L- 1 )、Cr2 + (5 0mg·L- 1 )对JL 14有毒性;菲和蔗糖均可促进菌株JL 14对苯并[a]芘的降解作用.     

苯并[a]芘对鲫鱼生物标志物的影响研究

研究了苯并[a]芘暴露对鲫鱼(Carassius auratus)的几种生物标志物的影响.在鲫鱼接受3个不同质量分数苯并[a]芘(BaP)的腹腔注射14 d后,分析了其肝脏7-乙氧基-3-异吩噁唑酮-脱乙基酶(EROD)活性,以及超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷胱甘肽过氧化物酶(GPx)等抗氧化酶活性和红细胞核异常(NA)率变化.结果显示:w(BaP)为1 mg/kg处理组的EROD活性显著升高(P＜0.001).w(BaP)为0.1和1 mg/kg处理组SOD活性显著低于对照组(P＜0.001),在暴露结束时,w(BaP)为1 mg/h处理组CAT活性显著低于对照组(P＜0.01),而w(BaP)为0.1和1 mg/kg处理组GPx活性被显著抑制(P＜0.001).表明BaP对EROD活性有诱导作用,而对SOD,CAT和GPx等抗氧化酶活性的抑制作用明显.所有处理组NA率与对照组均无显著差异.因此,鲫鱼EROD,SOD,CAT和GPx等酶活性的改变适于作为生物标志物,可以用来显示暴露于多环芳烃有机污染物鱼类的生活状态.      

一株苯并[a]芘高效降解真菌的筛选与降解特性

从长期受多环芳烃(PAHs)污染的土壤中分离出一株能够降解苯并[a]芘(B[a]P)的真菌,经鉴定为绿色木霉(Trichoderma viride)(命名为BF-1),并对其以B[a]P为唯一碳源进行反复驯化,考察了B[a]P浓度、不同重金属和培养基对其降解能力的影响.结果表明,菌株BF-1在B[a]P浓度为5mg.L-1,32℃振荡培养约6d的条件下,降解速度最快,B[a]P的降解率达68.28%.BF-1在B[a]P浓度分别为10与25mg.L-1,32℃振荡培养6d的条件下,B[a]P的降解率分别为73.29%与87.36%.Cu2+(50mg.L-1)基本不影响BF-1对B[a]P的降解率;Cd2+(100mg.L-1)、Pb2+(300mg.L-1)对BF-1降解B[a]P有一定影响,但仍表现出较高的耐受能力;而Zn2+(200mg.L-1)对BF-1有明显的抑制作用.选用含5mg.L-1B[a]P的土豆葡萄糖液体培养基,6d后B[a]P的降解率为71.31%.对比前述实验结果表明,培养基对B[a]P降解率的影响并不明显.因此,BF-1的应用价值较高.     

六株真菌对土壤中芘和苯并芘的降解及其动力学

研究了6株真菌对土壤中芘和苯并芘(BaP)的降解动态,用Michaelis-Menton和Monod动力学模型对结果进行拟合.结果表明,6株真菌对芘和BaP的降解速率有显著性差异,降解率相差不大.产黄青霉(Penicillium chrysogenum,SF04),在42d内对BaP的降解能力最强,可达71.31%,对芘的降解能力相对最弱.镰刀菌(Fusariumsp.,SF11),黑曲霉(Aspergillusniger,SF05),木霉(Trichodermasp.,SF02)和毛霉(Mucorsp.,SF06)42d对芘的降解率分别为86.22%,86.18%,85.41%,85.04%,对BaP的降解率分别为71.11%,69.44%,69.05%,69.72%.木霉(Trichodermasp.,SF02)和毛霉(Mucorsp.,SF06)对芘和BaP的降解速率均很快.     

BaP和Cd单一复合对BaP蚯蚓亚细胞分配的影响

选用钙离子通道阻断剂氯化镧（LaCl₃）和巯基蛋白阻断剂N-乙马来酰亚胺（NEM）对赤子爱胜蚓进行预暴露,然后构建BaP单一或Cd-BaP复合污染,研究不同阻断剂对BaP在蚯蚓不同亚细胞组分（Fraction C：细胞溶质组分;Fraction D：固体颗粒组分;Fraction E：细胞碎片组分）中分配积累特征的影响.结果表明,无论单一或复合污染,BaP主要分布于细胞碎片组分中（占55.42%~69.96%）,其次为固体颗粒组分（占27.91%~32.90%）,在细胞溶质组分中的浓度最低（占2.13%~11.67%）.单一BaP污染下,两种阻断剂对BaP的作用相近,即LaCl₃和NEM的加入均能不同程度地促进3个亚细胞组分中BaP的积累.而在Cd和BaP复合污染下,两种阻断剂对BaP的分布积累的影响略有不同,LaCl₃能够促进复合污染下BaP在3个亚细胞组分中的积累,而NEM促进了复合污染下BaP在固体颗粒组分和细胞碎片组分中的积累,但抑制了BaP在细胞溶质组分中的积累,浓度从原来的0.99mg/kg降低至0.59mg/kg.因此,钙离子通道和巯基蛋白可能参与BaP在蚯蚓亚细胞的分配积累,相比单一污染,Cd的复合污会进一步改变BaP的积累分配特征.