Effect of Purified Paper Wasp Ropalidia marginata Venom Toxins on Different Biomolecules in Mice Serum

This study evaluated the effects of purified paper wasp Ropalidia marginata venoms on various biomolecules in the blood serum of albino mice. Changes in the concentration of some important macromolecules, i.e., proteins, free amino acids, uric acid, cholesterol, pyruvic acid, total lipids and glucose were noted down. These alterations were measured after intraperitoneal injection of 40% and 80% 24-hour LD50 purified Ropalidia marginata venom toxin. Serum total protein levels were found to decrease to 78% after 6 hrs, while serum free amino acid levels were significantly increased to 117% 6 hrs after venom injection compared to control. It was also found that serum uric acid levels increased to 138% after 8 hrs of venom injection compared to control. The increase in serum cholesterol i.e. (101% and 106%) and pyruvic acid increased significantly to a maximum value of 106% after 6 hrs of treatment at 40% LD50. Glycogen levels in the gastrocnemius muscle were found to decrease significantly (p-0.05) to 43% and 92% at LD50 after injection of purified Ropalidia marginata venom after 8 h and 80% at LD50 compared to control. Moreover, up to 71% and 81% were obtained at 10 hrs of treatment with the same dose. In the present study, the purified toxins significantly changed the levels of biomolecules in blood serum, indicating their wider effects on cellular physiology due to toxic effects and stress on the animal. These toxins can be good antigens and stimulate immune responses in experimental mice.

The peptide fraction of Bothrops jararaca snake venom induces toxicological effects on the male reproductive system after local envenomation in mice

Bothrops envenomation is complex and provokes prominent local tissue damage and systemic disturbances,but little is known about their effects on the male reproductive system.After intratesticular injection,the bioactive peptide fraction(Bj-PF)obtained from Bothrops jararaca snake venom changes the structure of different stages of the seminiferous epithelium cycle in adult mice.For the first time,we investigated whether local envenomation of Bj-PF induces toxicological effects on the male reproductive system,particularly on the seminiferous epithelium and Sertoli cells.Male adult mice were treated with 0.24 mg.kg^(-1) by intramuscular(i.m.)injection for 24 h.The testes samples were collected for morphological and morphometric evaluation.The toxicological effects of Bj-PF were also analyzed on mitochondrial metabolism and nitrite(NO2)production in 15P-1 Sertoli cell culture.Bj-PF changed the structure and function of the seminiferous epithelium,particularly the disruption of the epithelium and the presence of degenerated germ cells in the adluminal compartment,but there were no alterations in the basal compartment.Bj-PF increased the thickness of the seminiferous epithelium and decreased the lumen diameter of the tubule.Semiquantitative histological assessment of the degree of tubule degeneration revealed that Bj-PF also increased the number of hypospermatogenic tubules compared to control.Bj-PF reduced NO2 levels in 15P-1 Sertoli cells without changing the mitochondrial metabolism.Overall,the fact that Bj-PF alters the structure and function of the seminiferous epithelium suggests that bioactive peptides found in B.jararaca snake venom can have toxicological effects on the reproductive systems of affected male mice,providing new insight into the biological characteristics of snake venom and therapeutic strategies for envenomation inflammation.

Research Progress on the Innate Immunity of Bactrocera dorsalis (Hendel) and the Regulation Mechanism of Parasitic Wasp Venom Protein

[Objectives]The use of natural enemies of living insects and their derivatives can effectively avoid the problems of pesticide residues,pest resistance,biodiversity decline,control effect weakening and so on.[Methods]Parasites inject various parasitic factors into hosts to inhibit the development of hosts,adjust the immunity of hosts,interfere with the growth and development of hosts,and reduce the nutrition metabolism of hosts,so as to ensure the growth and development of the offspring.Host pests can escape or conquer the parasitism of parasitic wasps through immune defense system in order to reproduce their own offspring.[Results]Under intense and strong selection pressure,in order to effectively ensure the success rate of parasitism,the adaptive diversity of parasitism strategies of parasitic wasps is finally caused.In the process of evolution and under the pressure of directional selection,the innate immunity and acquired immunity gradually evolve.[Conclusions]In-depth research on parasitic factors of parasitic wasps and their interaction with crop pests immunity and development can not only improve theoretical understanding of insect immunity and development biology,pest biological control and other disciplines,but also be expected to enable the application of some components of parasitic factors to agriculture,medicine and pharmacy.Bactrocera dorsalis is a destructive fruit and vegetable pest.This paper summarized the venom protein of B.dorsalis parasitoids and the immune interaction with hosts,in order to provide theoretical basis for biological control of plant pests by using parasitic natural enemies.

蟾酥诱发人成骨肉瘤MG-63细胞凋亡的作用机制研究

目的探究蟾酥对人骨肉瘤MG-63细胞增殖、凋亡、侵袭、转移的影响及可能作用机制。方法取雄性C57BL/6J小鼠30只,制备空白血清和不同浓度(2.5%和5%)的蟾酥含药血清。取传代培养MG-63细胞,实验分为3组:2.5%蟾酥含药血清组和5%蟾酥含药血清组分别加入相应浓度的蟾酥含药血清培养,对照组加入等体积PBS培养。CCK-8法检测MG-63细胞增殖活性,PNPP法检测细胞中碱性磷酸酶(ALP)活性,茜素红法检测细胞成骨能力,Transwell法检测MG-63细胞侵袭、转移情况,流式细胞仪检测细胞凋亡率及MG-63细胞中整合素α4(Integrinα4)表达情况。结果不同浓度蟾酥含药血清组各时间点细胞增殖率均明显低于对照组(P均<0.05),且5%蟾酥含药血清组均明显低于同期2.5%蟾酥含药血清组(P均<0.05);不同浓度蟾酥含药血清组细胞凋亡率、ALP活性均明显高于对照组(P均<0.05),且5%蟾酥含药血清组均明显高于2.5%蟾酥含药血清组(P<0.05);茜素红染色显示,不同浓度含药血清组有橘红色结节、边界清楚细胞增多;不同浓度蟾酥含药血清组侵袭性细胞和转移性细胞数量均明显少于对照组(P均<0.05),Integrinα4表达占比均明显低于对照组(P均<0.05),且5%蟾酥含药血清组细胞数量均明显少于2.5%蟾酥含药血清组(P均<0.05),Integrinα4表达占比明显低于2.5%蟾酥含药血清组(P<0.05)。结论蟾酥可以促进MG-63细胞凋亡,抑制细胞增殖、侵袭和转移,改善细胞分化和成骨功能,机制可能与下调Integrinα4表达有关。

皖南蝮蛇毒抑瘤组分-Ⅰ对胃癌MKN-28细胞增殖、迁移及凋亡的影响

目的:探讨皖南蝮蛇毒抑瘤组分-Ⅰ(agkistrodon halys venom antitumor componentⅠ,AHVAC-Ⅰ)对胃癌MKN-28细胞生物学行为的影响作用。方法:不同实验浓度(5、10和15μg/mL)AHAVC-Ⅰ处理胃癌细胞MKN-2824 h后,采用细胞增殖和毒性检测(cell counting kit-8,CCK-8)法检测细胞增殖活力;划痕实验和Tanswell小室检测细胞迁移能力;激光共聚焦显微镜(annexin VmCherry/DAPI双染)和流式细胞术(annexin VFITC/PI双染)检测细胞凋亡;Western blot检测细胞凋亡相关蛋白Caspease-3的表达水平。结果:AHVAC-Ⅰ各浓度组分别与正常对照组相比结果显示,随着AHVAC-Ⅰ浓度的增加,MKN-28细胞增殖活力逐渐下降(P<0.01),细胞迁移能力逐渐被抑制(P<0.01),细胞凋亡率增高(P<0.05),凋亡相关蛋白Caspease-3表达上调(P<0.01)。结论:AHVAC-Ⅰ抑制胃癌细胞MKN-28增殖和迁移,诱导其凋亡。

STRUCTURE-FUNCTION FEATURES AND EFFECTS ON BLOOD COAGULATION OF SNAKE VENOM SERINE PROTEASES*

Snake venoms,especially those from the two subfamilies,Crotalinae and Viperinae,contained a lot of serine proteases. They were responsible for the hemorrhage,shock,or disorder of blood coagulation after envenomation. They acted,by activating,inactivating,or other converting effects,on almost all the components of hemostatic and fibrinolytic systems. Their sequences were homologous to trypsin-kallikrein serine proteases. Variation of primary sequences out of active center results in the difference of substrate specificities and the further difference of biological and pharmacological activities. Because of their common and unique properties compared to their physiological corresponding factors,snake venom proteases are proved to be an excellent model for the study of protease substrate discriminating mechanism. Furthermore,they have found an important position both in basic research and application of hemostasis and thrombosis in clinic.

毒蛇咬伤致多脏器损伤作用及机制研究进展

毒蛇咬伤是临床常见急重症,严重危害人类生命安全。蛇毒毒液螯入后会导致神经损伤、凝血障碍等致死性的全身性损伤,咬伤部位溃疡、肌坏死等致残性的局部损伤,以及多脏器组织损伤。近年来,毒蛇咬伤后血液毒性、神经毒性、细胞毒性被广泛研究,但对实体脏器的损伤研究较为缺乏,而蛇伤后多脏器损伤是其高致死率的重要原因。因此,该文对毒蛇咬伤后,合并致心脏、肝脏、肾脏、肺脏、脾脏、脑等实体脏器的功能性或器质性损伤作用及机制进行综述,旨在为蛇伤临床精准诊治提供参考与借鉴。

Purification and Characterization of Cytotoxins from Agkistrodon acutus Venom and Their Anticancer Activity

Aim To investigate the anticancer activity of two new cytotoxins from thevenom of Agkistrodon acutus. Methods The venom was isolated by FPLC column chromatography consistingof DEAE Sepharose FF and Source 30S. The cytotoxic activity on tumor cells was detected by MITmethod. Purity and molecular weight were determined by SDS-PAGE (silver staining). Their stabilitiesto temperature and pH were also detected. Results Two pure cytotoxins named ACTX-6 and ACTX-8 wereobtained. Their molecular weights are 98 kDa and 27 kDa, respectively. ACTX-6 consists of twosubunits bonded together by disulfide bonds. Conclusion ACTX-6 and ATCX-8 have highest inhibitoryactivity on lung cancer cell A549. ACTX-6 is stable to heat while ACTX-8 not. ACTX-6 is stablebetween pH 7-9 and ACTX-8 between pH 6 - 9.

动物毒液的抗菌活性研究进展

研究发现动物毒液中含有多种活性蛋白和多肽,具有广谱抗菌、抗病毒、抗癌、免疫调节等功能,目前针对蛇、蜜蜂、蝎子、蚂蚁和蜈蚣毒液的研究较为广泛,其毒液中所分泌的活性物质有望成为抗菌药物的来源。蛇毒中的磷脂酶A2和L-氨基酸氧化酶是发挥抗菌作用的主要活性物质,碱性磷脂酶A2可以杀灭金黄色葡萄球菌、鼻疽杆菌。L-氨基酸氧化酶在氧气的作用下产生过氧化氢,对巴氏杆菌、大肠杆菌、金黄色葡萄球菌、粪肠球菌有抑菌活性。蜂毒液的主要成分包括蜂毒素、磷脂酶A2和蜂毒肽,其中蜂毒肽和蜂毒素抗菌效果显著,对唾液链球菌、粪肠杆菌、沙门菌具有抗菌活性,蜂毒肽对耐甲氧西林金黄色葡萄球菌(MRSA)具有抗菌活性。蝎毒液作为生物活性肽的来源之一,分为二硫键桥肽(DBPs)和非二硫键桥肽(NDBPs),大部分非二硫键桥肽具有良好的抗菌效果,但部分非二硫键桥肽对真核细胞具有毒性作用。蚂蚁毒液富含生物活性蛋白和其他挥发性与非挥发性化合物,部分蚂蚁毒液肽对多种革兰阳性菌、革兰阴性菌表现出一定的抗菌活性。蜈蚣毒液分离出的抗菌肽主要有抗菌肽ScolopinⅠ、抗菌肽ScolopinⅡ和抗菌肽Scolopendrin 1,其中ScolopinⅠ和ScolopinⅡ对金黄色葡萄球菌及多重耐药菌株的生长均有抑制作用。在当前全球细菌耐药性问题日益严重的情况下,动物毒液作为一种潜在的原材料,为抗菌药物的研发提供了一个新思路,但由于动物毒液的毒性、稳定性等限制其作为药物直接进行应用,需通过改造、重组等手段进行改进,且多数研究还处于试验阶段。本文综述了蛇、蜜蜂、蚂蚁、蝎子、蜈蚣毒液的抗菌活性,旨在为开发新型、有效、低毒的抗菌药物提供参考。

正交设计优化蟾酥注射液的提取工艺

试验旨在优化蟾酥注射液的提取工艺,试验以吲哚类总生物碱(以5-羟色胺盐酸盐计)的含量为考察指标,以加水倍数(A)、加热温度(B)和提取时间(C)为考察因素,通过L_(9)(3^(4))正交试验优化蟾酥注射液的提取工艺,确定提取工艺参数,并采用最大极差法对正交试验数据分析处理。结果显示,加水倍数是影响蟾酥注射液主要成分含量的主要因素,蟾酥注射液的最佳提取工艺为10倍加水量浸泡,加热煮沸(100℃),提取时间4 h。验证性试验按最优工艺制备3批样品,采用紫外可见分光光度(UV)法测定蟾酥注射液中吲哚类总生物碱的含量为9.92 mg/L。研究表明,该提取工艺稳定可靠,可用于中试生产。

管氏肿腿蜂寄生和注射其毒液对黄粉虫过氧化氢酶基因表达的影响

为了探究管氏肿腿蜂Scleroderma guani寄生和注射其毒液对寄主黄粉虫Tenebrio molitor蛹中过氧化氢酶表达的影响,采用RT-PCR克隆黄粉虫过氧化氢酶基因,利用生物信息学软件分析基因序列结构特性,采用实时荧光定量PCR技术分析该基因的表达特征,使用试剂盒测定过氧化氢酶活性。克隆获得的黄粉虫过氧化氢酶基因编码阅读框序列长1 620 bp,编码539个氨基酸。该基因编码的氨基酸序列中含有催化氨基酸位点(His-71、Asn-183和Tyr-393)以及过氧化氢酶家族的3个保守基序:近端活性位点序列(FDRERIPERVVHAKGXG)、NADPH结合位点(XXHQXXXXFXD)和血红素配体结合位点(RXFXYXDXH)。被管氏肿腿蜂寄生和注射其毒液后,黄粉虫蛹中的过氧化氢酶基因的表达量显著上调,其血淋巴和脂肪体中的过氧化氢酶活性显著升高。研究结果表明,管氏肿腿蜂毒液能调控黄粉虫过氧化氢酶基因的表达。

蜂毒及其组分调节氧化应激的研究进展

蜂毒是天然生物毒素,有较强的生物活性,成分复杂,具有较重要的药用价值。其主要成分为蜂毒肽,具有多种药理活性。蜂毒及其组分的多重作用,部分与调节机体氧化应激密切相关,一方面可以通过抑制氧化应激改善辐射诱导的氧化应激损伤、减轻药物所致的肝肾肺功能受损、抑制肿瘤生长、促进神经功能恢复,另一方面也可能在某些情况下诱导氧化应激造成机体损伤。本文综述了蜂毒及其组分对氧化应激的调节作用,以期为其临床应用和进一步深入研究提供参考。

沙蟾毒精抗癌活性及相关机制的研究进展

蟾酥是一种具活性的蟾蜍提取物,其炮制方法是将中华大蟾蜍皮肤腺和耳后腺分泌的毒液进行酒制或高温干燥而得。作为一种在中国被用来治疗疾病已有上千年历史的天然产物,蟾酥具有强心、镇痛、抗心肌缺血、抗内毒素休克、抗癌等多种药理作用。沙蟾毒精(arenobufagin,ARE)是蟾酥的主要化学成分之一,其抗癌机制也在近十年来被越来越多地阐明。ARE可通过多种途径发挥抗癌作用,如诱导癌细胞凋亡和/或自噬、坏死、细胞周期阻滞,抑制癌细胞迁移和侵袭,抑制血管生成等。目前有关ARE的研究主要关注在其癌细胞选择性毒性和抗癌分子机制方面,多为细胞和动物水平。受限于ARE毒副作用较大、靶点不明确和药代动力特性不清楚等,ARE尚未进入西医临床应用阶段。该文梳理了ARE的抗癌活性、抗癌分子机制以及与其他抗癌药物联合使用的相关研究成果,以期为完善ARE的抗癌机制研究提供新的方向。

口服尖吻蝮蛇毒降纤酶对大鼠纤维蛋白原的影响

目的:探讨尖吻蝮蛇毒降纤酶(DF)灌胃给药后在SD大鼠胃肠道内的分布情况及对血浆纤维蛋白原浓度的变化情况。方法:SD大鼠灌胃尖吻蝮蛇毒DF后观察大鼠体征,检测DF对大鼠的急性毒性作用;采用免疫组织化学法和酶联免疫吸附试验(ELISA)法检测尖吻蝮蛇毒DF在大鼠胃肠道组织中的分布情况及其与大鼠纤维蛋白原的量效关系和时效关系。结果:灌胃尖吻蝮蛇毒DF(1000 U/kg)后大鼠未出现明显的中毒反应,DF口服毒性很低;大鼠灌胃DF 3 h后,DF主要存在于十二指肠、胃和空肠组织内;在量效关系实验中,大鼠灌胃DF(200 U/kg)后纤维蛋白原水平显著低于对照组(P<0.05);在时效关系实验中,灌胃第5、第6、第7天的纤维蛋白原水平显著低于对照组(P<0.05),并呈时间和剂量依赖关系。结论:口服尖吻蝮蛇毒DF可以通过胃肠道黏膜吸收进入胃、十二指肠、空肠组织内;口服适量DF可以有效降低大鼠体内的纤维蛋白原水平,连续给药效果更为显著。

黄颡鱼的毒棘结构

为深入了解黄颡鱼的毒棘结构,增强人们对淡水刺毒鱼类的认知。本研究结合宏观毒棘骨骼标本制作和微观组织切片等方法,深入探究黄颡鱼的毒棘结构。结果显示,黄颡鱼的胸鳍和背鳍均具有尖锐的倒刺棘骨,棘骨外包围着皮膜,皮膜拥有能分泌毒液的毒腺细胞,它们共同组成了黄颡鱼毒棘装置。毒棘骨骼宏观结构表明,黄颡鱼的背鳍和胸鳍毒棘均具有贯穿全棘骨的中央管和包围棘骨的皮膜;背鳍棘骨细长、锥形,且轻微拱起,顶部骤尖,后缘为弱锯齿;胸鳍棘骨前后缘均有锯齿,但后缘为强锯齿。背鳍和胸鳍毒棘基部结构的髁突形状、大小、位置全然不同。微观结构显示,皮膜中的毒腺细胞聚集成层,位于鳞状上皮与色素层之间,未见导管与之相连,背鳍和胸鳍毒棘的分支性骨管中均未发现毒腺细胞。胸鳍和背鳍锁紧装置可让毒棘保持倒伏或者直立的锁定状态,降低猎物挣脱几率。本研究有助于深入了解黄颡鱼的毒棘结构和特征,并增强人们对淡水刺毒鱼类的认知。

蜂毒PLA2原核表达及溶血作用研究

[目的]蜂毒(Bee_Venom,BV)是天然的动物药,药理效应广泛,成分较为复杂。磷脂酶A2(phospholipase A2,PLA2)是蜂毒的重要活性成分和主要过敏原,可与蜂毒肽发挥协同作用,诱发溶血。本研究旨在通过原核系统表达并纯化出蜂毒磷脂酶A2(BvPLA2)蛋白,并通过溶血试验对比蜂毒(bee venom,BV)、蜂毒肽(melittin)以及BvP⁃LA2的溶血效果。[方法]将已构建好的pET28a-BvPLA2融合表达载体转化到大肠杆菌BL21菌株中并通过IPTG低温诱导蛋白表达,对表达产物进行鉴定并纯化获得重组BvPLA2蛋白。采集小鼠眼球全血与生理盐水等体积混合配制成2%的红细胞混悬液,加入不同浓度的BvPLA2蛋白液、蜂毒液及蜂毒肽,通过酶标仪测定溶血率。[结果]经IPTG诱导后的表达产物在约15 kDa的分子量处呈现清晰的条带,与理论推算值一致。超声破碎后在上清及沉淀中均表达出特异性条带,且上清中的表达量与沉淀表达量基本一致。不同浓度的BvPLA2蛋白液均具有溶血效果,溶血率均超过5%,且低浓度BvPLA2溶血率较高。经对比得出,BvPLA2溶血率显著低于蜂毒和蜂毒肽(P<0.05)。[结论]通过原核表达系统成功诱导并纯化出可溶性目标蛋白BvPLA2,且BvPLA2具有一定的溶血效果,但溶血效果显著低于蜂毒和蜂毒肽。

牛磺酸对蟾蜍甾烯在心脏组织分布情况的影响

目的:考察牛磺酸(Tau)对蟾蜍甾烯在心脏组织分布情况的影响。方法:16只雄性豚鼠随机分为空白组、模型组(8 mg/kg蟾酥)、牛磺酸低剂量组(8 mg/kg蟾酥+150 mg/kg Tau)和牛磺酸高剂量组(8 mg/kg蟾酥+300 mg/kg Tau),给予相应处理后,采用HPLC-ESI-TOF-MS分析不同给药组蟾蜍甾烯类成分在豚鼠心脏中的摄取情况,进一步采用分子对接技术模拟牛磺酸与目前已知心脏疾病相关靶点蛋白SCN5A结合位点。结果:在模型组心脏中检测到Gtl、Arg、Hel、Tel、Btl、Bul、Rbg、Cbg和Cbt共9种蟾蜍甾烯的原型,在肝、肾中检测到部分可能发生羟基化的代谢产物,牛磺酸各剂量组心脏中也测到相关蟾蜍甾烯的原型化合物,但与模型组相比,牛磺酸各剂量组心脏中蟾蜍甾烯的摄入均显著减少;分子对接模拟牛磺酸与SCN5A结合能为-3.7 kcal/mol,牛磺酸可以与受体氨基酸Glu1225、Arg1306、Arg1309之间氢键相连。结论:牛磺酸可延缓蟾蜍甾烯类成分在靶器官心脏中的摄取,从而降低蟾酥的心脏毒性,推测牛磺酸与SCN5A的结合位点可能是Glu1225、Arg1306、Arg1309,这为中药配伍在心脏疾病治疗中的应用提供了实际的实验依据。

明胶海绵-血凝酶封堵剂在肺穿刺出血患者中的应用

目的 探讨明胶海绵-血凝酶封堵剂在肺穿刺出血患者中的应用。方法 收集2021年9月至2023年5月在济宁市第一人民医院接受明胶海绵-血凝酶封堵剂治疗的43例DSA导引肺穿刺活检并发出血患者临床资料,分析封堵止血治疗效果。结果 43例患者肺穿刺活检均成功取得,针道均由明胶海绵-血凝酶封堵剂成功封堵。封堵治疗后5 min,43例中仅1例术前表现为中量咯血伴中度出血影患者转为痰中带血,肺内出血影较5 min前稍扩大,其余患者均止血成功,咯血症状消失,肺内出血影与5 min前相仿。所有患者均未出现封堵治疗相关并发症。结论 明胶海绵-血凝酶封堵剂可用于治疗肺穿刺活检出血,疗效显著且安全。

马蜂蜇伤五例临床分析

马蜂蛰伤在临床工作中较为常见,患者的临床表现可仅表现为伤处的肿痛,但也有部分患者发生多脏器器官功能衰竭。因此,及时识别、早期救治马蜂蛰伤危急重症患者具有重要临床意义。本文回顾分析5例马蜂蛰伤患者的临床资料,结合国内外研究,对马蜂蛰伤后患者的临床表现进行小结,并进一步探讨可能造成病情危重的危险因素,以期为临床提供参考。

蜂毒镇痛作用的昼夜变化及对外周血P物质β-内啡肽和IL-1β水平的影响

目的:探讨小鼠疼痛模型的昼夜节律和注射用蜂毒(Bee venom for injection,BVI)镇痛作用的昼夜差异及其相关机制。方法:采用热板法、辐射热甩尾法建立小鼠疼痛模型,在6个授时(Zeitgeber time,ZT)时间点(ZT2、ZT6、ZT10、ZT14、ZT18、ZT22)测量痛阈并分析其昼夜节律。将合格昆明小鼠随机分为注射用蜂毒大剂量(Bee venom for injection-High dose,BVI-H)、注射用蜂毒中剂量(Bee venom for injection-Medium dose,BVI-M)、注射用蜂毒低剂量(Bee venom for injection-low dose,BVI-L)、吗啡(Morphine,MOR)和模型(Model,MOD)组;每组再根据小鼠痛阈的昼夜节律分为两个亚组,分别在痛阈的峰值和谷值2个时间点给药。观察各组对热板法、辐射热甩尾法和扭体法疼痛模型小鼠行为学影响的动态变化;ELISA法检测血清P物质(Substances P,SP)、β-内啡肽(Beta-endorphin,β-EP)和IL-1β(interleukin-1β,IL-1β)水平。结果:小鼠疼痛模型的痛阈显示出峰值在明中期(ZT6)、谷值在暗后期(ZT22)的昼夜节律。BVI三个剂量组和MOR组均显示出明显的镇痛作用,并且BVI在热板法和扭体法模型的镇痛作用具有剂量依赖性。在热板法和辐射热法疼痛模型中,BVI于ZT22给药比ZT6给药显示出更强的镇痛作用。蜂毒对疼痛模型小鼠血清β-EP水平未显示上调作用;但可明显降低血清SP含量,且具有ZT22给药低于ZT6给药的昼夜变化(P<0.05);对扭体法和辐射热法(仅ZT22给药组)疼痛模型小鼠血清IL-1β水平显著下调,而在热板法则显示IL-1β水平明显增高。结论:小鼠的痛阈存在峰值在明中后期、谷值在暗后期的昼夜节律;BVI对小鼠多种疼痛模型均具有镇痛作用,且存在昼夜差异;BVI的镇痛作用及其昼夜变化可能与调节内源性疼痛介质有关。