Construction of Antibacterial Peptide CecropinB Eukaryotic Recombinant Vector and Its Expression in Dairy Goat Mammary Gland Epithelial Cells

To investigate the expression of antibacterial peptide CecropinB cDNA in dairy goat mammary gland epithelial cells,the CecropinB gene was cloned and was inserted into a eukaryotic vector pECFP-C1 to construct the recombinant plasmid pECFP-B by genetic engineering technique.Recombinant plasmid pECFP-B was transfected into dairy goat mammary gland epithelial to detect the bactericidal activity of CecropinB.The expression of CecropinB was also detected.The result of RT-PCR demonstrated CecropinB gene was expressed in transfected cells.CecropinB recombinant plasmid DNA was injected into udders and CecropinB was expressed in mammary gland,exhibiting bactericidal activity to Staphylococcus aureus in vivo experiments.

Stable Expression of Antibacterial Peptide CecropinB in Dairy Goat Mammary Gland Epithelial Cells

The paper aimed at constructing the eukaryotic expression vector of CecropinB and transfecting it into the goat mammary epithelial cell line. The recombinant plasmid inserted with CecropinB was transfected into the goat mammary epithelial cell by liposome Tfx^M-20. By screening with G418, the stable transfected goat mammary epithelial cell line was established and the transcription and expression of CecropinB were identified by RT-PCR and agarose diffusion experiment, respectively. Results showed that eukaryotic expression vector pECFP-B was constructed successfully. Stable transfected goat mammary epithelial cell line was established and the CecropinB protein was expressed successfully. It provides the solid foundation for further experimental studies on the function of CecropinB.

Metabolic Regulation of Mammary Gland Epithelial Cells of Dairy Cow by Galactopoietic Compound Isolated from Vaccariae segetalis

In previous experiment, we isolated a compound dibutyl phthalate （DBP） from Vaccaria segetalis which had galactopoietic function on mammary gland epithelial cells of dairy cow （DCMECs）. In this experiment, we ascertained the metabolic regulation function of DBP on DCMECs. Many genes related to lactation including Stat5, AMPK, b-casein, Glut1, SREBP-1, PEPCK, and ACC were detected by real-time PCR. Furthermore, Stat5 and AMPK were detected by Western blot and immunofluorescence co-localization, respectively. The results showed that DBP stimulates the expression of Stat5 and p-Stat5, thus activates Stat5 cell signal transduction pathway and stimulates b-casein synthesis. DBP also raises the activities of Glut1 and AMPK to stimulate glucose uptake and glycometabolism and activates the expression of AMPK downstream target genes PEPCK and ACC and expression of SREBP-1 to stimulate milk fat synthesis. In addition, the activities of HK, G-6-PDH, ICDH, ATPase, and energy charges were stimulated by DBP to increase the energy metabolism level of DCMECs. The results showed DBP stimulates energy metabolism related to galactopoietic function in DCMECs.

Sulforaphane prevents LPS‑induced inflammation by regulating the Nrf2‑mediated autophagy pathway in goat mammary epithelial cells and a mouse model of mastitis

Background Mastitis not only deteriorates the composition or quality of milk,but also damages the health and pro-ductivity of dairy goats.Sulforaphane(SFN)is a phytochemical isothiocyanate compound with various pharmacologi-cal effects such as anti-oxidant and anti-inflammatory.However,the effect of SFN on mastitis has yet to be elucidated.This study aimed to explore the anti-oxidant and anti-inflammatory effects and potential molecular mechanisms of SFN in lipopolysaccharide(LPS)-induced primary goat mammary epithelial cells(GMECs)and a mouse model of mastitis.Results In vitro,SFN downregulated the mRNA expression of inflammatory factors(tumor necrosis factor-α(TNF-α),interleukin(IL)-1βand IL-6),inhibited the protein expression of inflammatory mediators(cyclooxygenase-2(COX2),and inducible nitric oxide synthase(iNOS))while suppressing nuclear factor kappa-B(NF-κB)activation in LPS-induced GMECs.Additionally,SFN exhibited an antioxidant effect by increasing Nrf2 expression and nuclear translocation,up-regulating antioxidant enzymes expression,and decreasing LPS-induced reactive oxygen species(ROS)produc-tion in GMECs.Furthermore,SFN pretreatment promoted the autophagy pathway,which was dependent on the increased Nrf2 level,and contributed significantly to the improved LPS-induced oxidative stress and inflammatory response.In vivo,SFN effectively alleviated histopathological lesions,suppressed the expression of inflammatory factors,enhanced immunohistochemistry staining of Nrf2,and amplified of LC3 puncta LPS-induced mastitis in mice.Mechanically,the in vitro and in vivo study showed that the anti-inflammatory and anti-oxidative stress effects of SFN were mediated by the Nrf2-mediated autophagy pathway in GMECs and a mouse model of mastitis.Conclusions These results indicate that the natural compound SFN has a preventive effect on LPS-induced inflam-mation through by regulating the Nrf2-mediated autophagy pathway in primary goat mammary epithelial cells and a mouse model of mastitis,which may improve prevention strategies for mastitis in dairy goats.

The Effects of Insulin and Prolactin on an Epithelial Cell Line from Mammary Gland of Dairy Goat

Mammary epithelial cells with lactational function can be a valuable cellular model for research of the development and regulation of the mammary gland.This paper describes some aspects of function of an epithelial cell line from the mammary gland of the dairy goat.SDS-PAGE,triglyceride and lactose content of cultured cells were used to assess synthetic function of cells and the effects of exposure to insulin and prolactin.Results show that goat mammary epithelial cells can synthesize fat,proteins and lactose when they were cultured in DMEM-F12 medium with added EGF,IGF-1,ITS and FBS.There were no obvious changes after 48h treatment with additional insulin.Prolactin added to the basal medium significantly increased synthesis of proteins and lactose.A mammary gland epithelial cell line from goats which has lactational function has been established.This outcome provides a valuable and convenient model system.

Influence on Cellular Signal Transduction Pathway in Dairy Cow Mammary Gland Epithelial Cells by Galactopoietic Compound Isolated from Vaccariae segetalis

The galactopoietic mechanism of Vaccaria segetalis is still unknown. Understanding dibutyl phthalate （DBP） separated from Vaccaria segetalis on the expression of lactation signal transduction genes of mammary gland epithelial cells, including prlr, erα, akt1, socs2, pparγ and elf5, will be helpful to reveal the molecular mechanism. Western blot and qRT- PCR were used to study the change of prlr, erα, akt, socs2, pparγ, and elf5 expression at mRNA and protein level. Co- localization expression of prolactin receptor （PRLR） and estrogen receptor α （ERα） was observed by immunofluorescence; the expression changes of miRNAs （21, 125b, 143, and 195） and the secretion of β-casein and lactose were detected by qRT-PCR and RP-HPLC. The results showed that Vaccaria segetalis active compound had similar fuctions as estrogen and/or prolactin （PRL） in dairy cow mammary gland epithelial cells （DCMECs）, increased the expressions of prlr, erα, akt1, and elf5 genes, while repressed pparγ expressions. DBP promoted socs2 mRNA expression, but its protein expressions were repressed. Furthermore, both DBP and PRL could repress the expressions of miRNA-125b, miRNA-143 and miRNA- 195 in DCMECs. DBP could repress the expression of miRNA-21, while the influence of PRL on miRNA-21 was not certain. DBP could promote the lactation ability of DCMECs by regulating the ER and PRLR cellular signal transduction pathway.

miR-25 modulates triacylglycerol and lipid accumulation in goat mammary epithelial cells by repressing PGC-1beta

Background: The goat(Caprahircus) is one of the most important livestock animals. Goat milk fat is an important component in the nutritional quality of goat milk. Growing evidence points to the critical roles of microRNAs(miRNAs) in lipid metabolism.Results: Using a highly sensitive method of S-poly(T) plus for miRNAs detection, we analyze the expression patterns of 715 miRNAs in goat mammary gland tissues at different stages of lactation. We observed that miR-25 expression had an inverse relationship with milk production. Overexpression of miR-25 significantly repressed triacylglycerol synthesis and lipid droplet accumulation. To explore the regulatory mechanism of miR-25 in milk lipid metabolism,we analyzed its putative target genes with bioinformatics analysis followed by 3′-UTR assays. Peroxisome proliferative activated receptor gamma coactivator 1 beta(PGC-1 beta), a key regulator of lipogenics was identified as a direct target of miR-25 with three specific sites within its 3′-UTR. In addition, miR-25 mimics in goat mammary epithelial cells reduced the expressions of genes involved in lipid metabolism.Conclusions: Taken together, our results show miR-25 is potentially involved in lipid metabolism and we reveal the function of the miR-25/PGC-1 beta regulatory axis during lactation.

Pregnancies Resulting from Transgenic Embryos with Human Lactoferrin Gene Produced by Somatic Cell Nuclear Transfer

[Objective] The aim of this study is to understand the effects of donor cell type,embryo stage,number and transfer position on the efficiency of goat transgenic clone.[Method] Using somatic cell nuclear transfer technology,the single goat fetal fibroblasts(GFF)and mammary gland epithelial cells(GMGE)harboring human lactoferrin(hLF)gene were transferred to the enucleated oocyte.Reconstructed karyoplast-cytoplast couplets were fused,activated,and cultured in vitro.Embryos at 2-8 cell stage were transferred into oviduct of synchronized recipients,and blastocysts were transferred into uterine horn.[Result] The pregnancy rate was similar between GFF and GMGE(oviduct transfer:26.47% vs.20.00%),and between oviduct transfer and uterine horn transfer(26.47% vs.25.00%)for GFF group;pregnancy rate in the group with the mean number of embryo transferred per recipient of 21.2 was significantly higher than in those the 5.93 group and 9.64 group(40.00% vs.26.67% and 21.43%).[Conclusion] These results indicate that pregnancy rate of goat transgenic clone couldn't be affected by donor cell type,embryo stage and transfer position but be done by the number of embryo transferred per recipient.In addition,the study also suggests the feasibility of making transgenic goat using GMGE as donor cells.

竹叶黄酮对H_(2)O_(2)诱导奶牛乳腺上皮细胞焦亡的保护作用

旨在以竹叶黄酮(BLF)为添加物,探究BLF对过氧化氢(H_(2)O_(2))诱导奶牛乳腺上皮细胞(BMECs)焦亡的保护作用。本研究以BMECs为研究对象,分为对照组、80μg·mL^(-1) BLF处理组、800μmol·L^(-1) H_(2)O_(2)处理组和80μg·mL^(-1) BLF+800μmol·L^(-1) H_(2)O_(2)处理组。利用RT-qPCR、Western blot、免疫荧光、流式细胞术等技术,检测细胞焦亡相关基因和蛋白表达以及凋亡相关微粒样蛋白(ASC)荧光强度。结果表明,与对照组相比,800μmol·L^(-1) H_(2)O_(2)处理BMECs 8 h显著增加了奶牛乳腺上皮细胞的焦亡(P<0.05),H_(2)O_(2)处理后,NLRP3、ASC、GSDMD、IL-18、IL-1β等焦亡相关基因的相对表达量均显著升高(P<0.05),尤其是NLRP3,说明H_(2)O_(2)显著增加BMECs焦亡。与H_(2)O_(2)处理组相比,BLF可以降低正常细胞焦亡水平,显著降低NLRP3、Nek7、ASC、GSDMD、IL-18、IL-1β基因mRNA上调的趋势,显著缓解了H_(2)O_(2)导致的NLRP3、ASC、Nek7、pro-caspase1、caspase1 p20、GSDMD-N、IL-18和IL-1β胞内焦亡相关蛋白表达的升高(P<0.05),ASC的荧光强度显著降低(P<0.05)。综上所述,H_(2)O_(2)显著上调NLRP3、ASC、Caspase-1、GSDMD、IL-1β、IL-18焦亡基因和蛋白表达水平,诱导奶牛乳腺上皮细胞焦亡。BLF通过降低NLRP3炎症小体通路蛋白和基因表达,降低了炎症因子水平,从而缓解奶牛乳腺上皮细胞焦亡。

Galactopoietic Activity of Dibutyl Phthalate Isolated from Vaccaria segetalis

A galactopoietic compound, identified as dibutyl phthalate（DBP）, was isolated from Vaccaria segetalis. The activity of DBP on lactation ability of dairy cow mammary gland epithelial cells（DCMECs） cultured in vitro and dairy cow was evaluated. Results showed that DBP could promote cell viability, proliferation ability, lactose and β-casein secretion of DCMECs, which could also raise the milk yields of dairy cows significantly.

3' Noncoding Region Construction of GHR Gene-luciferase Report Vector and Valuation

To analyze miR-139 target sites in 3＇ UTR of GHR gene in dairy cow mammary gland, a GHR 3＇ UTR- luciferase reporter vector was constructed and the effect of miRNA on its activity was evaluated in dairy cow mammary gland epithelial cells （DCMECs）. The miR-139 targeting GHR 3＇ UTR was predicted by Target Scan 5.1 software, 3＇ UTR fragment of GHR was amplified by PCR from RNA of DCMECs. PCR products were cloned into Spe Ⅰ/Hind Ⅱ modified pMIR-Report vector. The luciferase reporter vector and miRNA eukaryotic expression vector were transferred into DCMECs using lipofectamine 2000 transfection reagent. The dualluciferase reporter assay system was used to quantitiate the reporter activity. The results showed that a 107 bp 3＇ UTR fragment of GHR gene was successfully cloned into the pMIR-Report vector, which authenticated by Spe Ⅰ/Hind Ⅲ digestion and DNA sequencing. The luciferase activity of reporter construction treated with miR-139 decreased 20.87% compared with the control group. It was concluded that the GHR3＇ UTR-luciferase reporter vector had been successfully constructed. The luciferase activity of the reporter could be suppressed by miR- 139.

基于网络药理学探究金银花-连翘治疗奶牛乳房炎的作用机制及体外验证

为了探究金银花-连翘治疗奶牛乳房炎的作用机制,试验采用中药系统药理学分析(TCMSP)数据库获得金银花-连翘的活性成分及相关作用靶点蛋白,并将作用靶点蛋白进一步转化为靶点基因;利用DisGeNET数据库、GeneCards数据库和NCBI数据库检索奶牛乳房炎相关基因靶点;通过String数据库和Cystoscape v3.7.1软件构建金银花-连翘的有效活性成分靶点与奶牛乳房炎疾病靶点蛋白互作(PPI)网络图;采用David数据库进行金银花-连翘与奶牛乳房炎交集靶点所涉及的GO功能注释与KEGG信号通路富集分析,进而探究金银花-连翘治疗奶牛乳房炎的作用机制;建立奶牛乳腺上皮细胞炎症模型,采用ELISA检测金银花-连翘水提物对相关细胞因子表达的影响。结果表明:金银花-连翘主要活性成分包括β-谷甾醇、山奈酚、木犀草素、槲皮素等;共筛选获得239个药物活性成分主要涉及基因靶点及296个奶牛乳房炎基因靶点,其中交集靶点38个,以肿瘤坏死因子(TNF)、白细胞介素-6(IL-6)、白蛋白(ALB)、白细胞介素-1β(IL-1β)、白细胞介素-8(CXCL8)等为主。GO功能注释到的生物进程主要包括MAP激酶活性的正调控、炎症反应、一氧化氮生物合成过程的正调控等;细胞组分主要包括细胞核、细胞质、细胞表面等;分子功能主要包括细胞因子活性、转录因子活性等。KEGG信号通路主要富集在脂质与动脉粥样硬化、IL-17信号通路等;金银花-连翘水提物在体外可显著降低IL-6、IL-1β和CXCL8水平(P<0.05),发挥抗炎作用。说明金银花-连翘可能通过β-谷甾醇、山奈酚、木犀草素、槲皮素等活性成分调节IL-17信号通路,并作用于IL-6、IL-1β、CXCL8等靶点来治疗奶牛乳房炎。

GPR37L1对奶牛乳腺上皮细胞乳成分合成相关基因表达的影响

运用分子生物学技术构建GPR37L1表达和干扰载体,以奶牛乳腺上皮细胞为试验模型,通过瞬时转染技术构建载体转染乳腺上皮细胞,探究GPR37L1对乳成分合成相关基因表达的影响。结果表明,GPR37L1表达和干扰载体构建成功,GPR37L1过表达或干扰可提高或降低乳脂合成相关基因及β-酪蛋白表达,揭示GPR37L1可正向调节乳成分合成。

结缔组织生长因子体外调控奶牛乳腺上皮细胞生长和泌乳分化

旨在探究结缔组织生长因子在体外培养体系中对奶牛乳腺上皮细胞生长和泌乳分化的调控作用。本研究主要通过人为添加结缔组织生长因子(connective tissue growth factor,CTGF)重组蛋白和过表达CTGF基因分析其对细胞增殖、凋亡、乳脂和乳蛋白合成分泌及信号通路的影响。使用EdU试剂盒和流式细胞仪分别检测细胞增殖凋亡情况;应用尼罗红染料和甘油三酯试剂盒检测细胞内脂滴数量和细胞外培养液乳脂含量;实时荧光定量PCR和蛋白免疫印迹检测细胞增殖凋亡,β酪蛋白,乳脂和乳蛋白合成关键信号分子以及细胞外基质细胞表面受体β1整联蛋白的表达;免疫共沉淀分析CTGF和β1整联蛋白之间的蛋白质相互作用。结果表明:体外培养时,无论CTGF重组蛋白还是CTGF过表达均能通过增强增殖、抑制凋亡促进贴壁细胞生长;实时荧光定量PCR和蛋白免疫印迹结果表明,CTGF在转录和翻译水平增强促增殖的CyclinD1、MAPK和Bcl2表达,抑制促凋亡的Caspase3和Bax表达;CTGF一方面上调乳脂合成关键基因FASN、SREBP1、PPARγ表达水平,促进细胞内脂滴合成和胞外甘油三酯分泌;另一方面上调乳蛋白合成关键基因PRLR、STAT5和p-STAT5表达水平,进而显著促进β酪蛋白合成;CTGF上调β1整联蛋白表达水平,Co-IP也证实了CTGF和β1整联蛋白之间存在蛋白质相互作用。综上所述,CTGF促进体外培养的奶牛乳腺上皮细胞生长及泌乳能力;CTGF与β1整联蛋白共存于黏附复合物,可以通过影响β1整联蛋白信号途径实现其部分生物学作用。

催乳素对奶牛RANKL基因启动子活性的研究

文章以奶牛乳腺上皮细胞为实验模型,探讨催乳素对RANKL基因启动子活性的调节。采用Western Blot方法检测催乳素对RANKL蛋白表达的影响,构建RANKL启动子荧光素酶载体,采用双荧光素酶报告基因检测系统检测催乳素对RANKL基因启动子活性影响,采用定点合成突变的方法,构建突变型RANKL启动子荧光素酶载体,运用双荧光素酶报告基因检测系统检测催乳素对突变型RANKL启动子活性影响。结果表明,催乳素能够显著提高乳腺上皮细胞RANKL启动子活性及RANKL蛋白表达,催乳素响应元件在奶牛RANKL基因启动子-826~-814 bp区域。

miR-223对脂多糖诱导的奶牛乳腺上皮细胞炎症反应的影响

以中国荷斯坦奶牛乳腺上皮细胞(dairy cow mammary epithelial cell,DCMECs)为研究模型,探讨mi R-223对脂多糖(lipopolysaccharide,LPS)诱导的DCMECs炎症反应与乳脂合成的影响。应用Western blot检测肿瘤坏死因子-α(tumor necrosis factor-α,TNF-α)与脂肪酸合成酶(fatty acid synthase,FASN)的表达情况,通过脂质体转染技术将mi R-223转染至DCMECs,qRT-PCR检测mi R-223的相对表达量,采用原位荧光技术分别检测DCMECs的凋亡与乳脂合成能力。结果表明LPS诱导DCMECs炎症反应的最佳浓度为1μg/m L;添加LPS可促进DCMECs mi R-223的表达;DCMECs转染mi R-223后,mi R-223的表达显著上调;mi R-223可下调LPS诱导的DCMECs炎症蛋白因子TNF-α,上调乳脂合成相关蛋白FASN,抑制LPS诱导的细胞凋亡,促进LPS诱导的乳脂合成。

miR-455-3p对奶山羊化学诱导乳腺上皮细胞乳脂代谢的影响

【目的】探讨miR-455-3p对奶山羊化学诱导乳腺上皮细胞(CiMECs)乳脂代谢的影响,为研究微小RNA(miRNA)对山羊乳腺功能的调控机制提供理论依据。【方法】利用单一小分子化合物RepSox(TGFβR-1/ALK5抑制剂)诱导山羊成纤维细胞(GEFs),诱导8 d后观察细胞形态变化,采用特异性标记物免疫荧光染色和油红O染色鉴定CiMECs是否诱导成功。使用脂质体将miR-455-3p的过表达载体(miR-455-3p mimics、miR-455-3p mimics-NC)和干扰载体(miR-455-3p inhibitors、miR-455-3p inhibitors-NC)转染至CiMECs,通过细胞增殖及毒性检测(CCK-8)试剂盒、甘油三酯检测试剂盒、实时荧光定量PCR检测miR-455-3p对于CiMECs的增殖率、甘油三酯分泌情况及乳脂代谢基因表达量。【结果】GEFs诱导8 d后形成类似于山羊乳腺上皮细胞的岛状、多核和鹅卵石状细胞形状。免疫荧光结果显示,CiMECs可表达上皮特异性标志物抗原,包括细胞角蛋白14(CK14)和CK18;油红O染色结果显示,诱导后的细胞具有分泌脂滴的功能。CiMECs转染结果显示,miR-455-3p mimics极显著促进了miR-455-3p的表达(P<0.01),miR-455-3p inhibitors显著抑制了miR-455-3p的表达(P<0.05)。CCK-8及甘油三酯检测结果表明,与对照组相比,miR-455-3p mimics组细胞增殖率、甘油三酯分泌量均极显著降低(P<0.01),miR-455-3p inhibitors组细胞增殖率、甘油三酯分泌量均显著增加(P<0.05)。实时荧光定量PCR结果显示,与对照组相比,诱导后CiMECs中HADHB基因表达量极显著降低(P<0.01);miR-455-3p mimics组HADHB基因表达量极显著升高(P<0.01),miR-455-3p inhibitors组HADHB基因表达量显著降低(P<0.05)。【结论】通过抑制miR-455-3p可促进奶山羊CiMECs增殖,降低脂肪代谢基因HADHB的表达,从而提高山羊奶中脂肪酸含量。研究结果可为后续利用miRNA改善山羊乳品质提供参考。

山羊乳中乳腺上皮细胞的体外分离培养及鉴定

为了探索获得乳腺上皮细胞(MECs)的新途径,试验采用乳汁分离法分离培养山羊乳腺上皮细胞(GMECs),并以山羊耳缘成纤维细胞(GEFs)为对照,通过形态学观察、免疫荧光染色观察细胞形态,油红O染色检测脂滴形成情况;实时荧光定量PCR检测特异性基因;Western-blot检测乳腺分泌的特异性蛋白;此外,对GMECs和GEFs进行转录组测序(RNA-seq)分析及GO功能注释和KEGG信号通路富集分析。结果表明:从山羊奶中分离出来的细胞表现出MECs的结构特征;与GEFs对照相比,GMECs中乳腺上皮特异性基因CDH1、LTF、CSN2、CSN3、EpCAM、KRT18、ELF3和ELF5的相对表达量在第8代(GMEC8)极显著增加(P<0.01),GMEC8可以表达CDH1、EpCAM、CSN2和LTF等蛋白;共获得4481个明显差异表达的基因,其中上调基因1975个,下调基因2506个;上皮的形态发生和上皮发育为显著富集的GO条目;乳腺发育相关的信号通路如WNT、PI3K-Akt和MAPK信号通路明显富集。说明从山羊奶中可以分离出GMECs。

BLV-miR-B1-5p靶向牛MUC1基因的靶位点预测及验证

牛白血病病毒(bovine leukemia virus,BLV)可经血液和淋巴系统下行持续感染奶牛乳腺上皮细胞,可导致细胞抗菌能力下降,而BLV编码的mi RNAs(BLV-mi RNAs)是BLV复制和致病所必需的功能元件。为探究BLV编码的BLV-mi R-B1-5p是否通过靶向牛黏蛋白1(MUC1)基因参与抑制乳腺上皮细胞的抗菌防御屏障,在研究中首先通过STar Mir软件进行靶位点预测,再通过细胞转染、双荧光素酶报告试验、qRT-PCR和Western Blot进行验证。靶位点预测结果显示,BLV-mi R-B1-5p与MUC13′UTR有完全结合位点,结合的自由度为-35.6 kcal·mol^(-1);双荧光素酶报告试验结果显示:BLV-mi R-B1-5p可显著下调MUC1-3UTR-WT的荧光值(P<0.001);且通过mi RNA细胞转染、qRT-PCR和Western Blot体外验证结果显示,BLV-mi R-B1-5p可抑制奶牛乳腺上皮细胞MUC1 m RNA和蛋白的表达。综合以上结果表明,BLV-mi R-B1-5p可靶向并抑制牛MUC1,从而参与抑制乳腺上皮细胞的抗菌防御屏障。研究为BLV影响乳腺上皮细胞的防御能力提供了数据参考。

奶牛乳房炎相关IFNE基因的克隆、表达及功能研究

【目的】研究干扰素ε(Interferon epsilon,IFNE)基因在奶牛乳腺上皮细胞(Bovine mammary epithelial cells,bMECs)炎症中的表达模式及其潜在的分子功能。【方法】通过PCR和测序技术得到IFNE基因的编码区(Coding sequence,CDS)序列,并采用生物信息学方法分析IFNE基因及其蛋白质特性;利用RNAi和qPCR技术检测IFNE、干扰素β(Interferon beta,IFNB)、干扰素κ(Inter⁃feronκ,IFNK)、半胱天冬酶3(Cystathione aspartase 3,CASP3)、半胱天冬酶9(Cystathione aspartase 9,CASP9)等基因在脂多糖(Li⁃popolysaccharide,LPS)诱导bMECs炎症反应中的表达量。【结果】IFNE基因的CDS长度为582 bp,可编码由193个氨基酸组成的具有亲水性且不稳定的非分泌蛋白。与对照组(0 h)相比,在LPS诱导3、6、12和24 h的bMECs中白细胞介素⁃6(Interleukin⁃6,IL⁃6)和白细胞介素⁃1β(Interleukin⁃1β,IL⁃1β)的表达量均显著上调(P<0.05,下同),白细胞介素⁃8(Interleukin⁃8,IL⁃8)的表达量极显著上调(P<0.01,下同),表明成功构建了炎症细胞模型。在炎症细胞模型构建成功的基础上,采用qPCR检测bMECs内IFNE基因的表达量结果表明,与对照组(0 h)相比,IFNE基因在LPS诱导bMECs 3、6、12和24 h的表达量均极显著上调,且在诱导6 h的表达量最高。RNAi实验结果表明,干扰IFNE可使得炎症性bMECs内的IL⁃8、IFNB、IFNK和白细胞介素⁃10受体亚基β(Interleu⁃kin⁃10 receptor subunitβ,IL⁃10RB)基因的表达量均显著上调,IL⁃6、IL⁃1β、CASP3、CASP9和BAD基因的表达量均呈极显著上调。【结论】IFNE基因在LPS诱导的bMECs炎症反应中的表达量极显著上调,干扰IFNE基因可通过调控IL⁃6、IL⁃8、IL⁃1β、IFNB、IF⁃NK、CASP3和CASP9等基因的表达而缓解bMECs炎症反应,为奶牛乳房炎的分子治疗和抗乳房炎分子育种奠定理论基础。