大肠杆菌重组精子固定因子 RecX 作为一种潜在的阴道避孕剂。
Escherichia coli recombinant sperm immobilizing factor RecX as a potential vaginal contraceptive.
机构信息
Department of Microbiology, Panjab University, Chandigarh, 160014, India.
出版信息
Reprod Biol Endocrinol. 2018 Sep 13;16(1):88. doi: 10.1186/s12958-018-0407-1.
BACKGROUND
To control the overpopulation and unintended pregnancies, vaginal contraceptives have gained recent surge of interest because of its topical application with possible avoidance of systemic effects. However non-specific cytotoxicity associated with detergent-based synthetic vaginal contraceptive agents limits their use and generates considerable interest in the development of vaginal contraceptives of biological origin for controlling reproduction and ultimately growing population. In this study, we have cloned, over-expressed an Escherichia coli gene encoding a sperm immobilizing factor (SIF) that inhibits sperm motility for the development of vaginal contraceptive from a biological source i.e. E. coli. The contraceptive efficacy of the Escherichia coli recombinant sperm immobilizing factor (r-SIF) was also determined.
METHODS
Genomic DNA library of an E. coli strain isolated from semen sample of an infertile male was constructed for the identification and cloning of E. coli SIF coding gene. This gene was sub-cloned in pBADmycHisB for over-expression and the r-SIF was purified using Ni-NTA affinity chromatography. Effect of r-SIF on mouse sperm motility, viability and on morphology was evaluated. Binding of r-SIF to mouse sperm was demonstrated by fluorescent labeling. Contraceptive efficacy of r-SIF was checked in murine model.
RESULTS
Genomic library resulted in five hundred transformants; five clones were found positive for sperm immobilizing activity. The protein product of the insert DNA sequence in one of the transformants showed maximum sperm immobilizing activity. Sequence analysis of ORFs in the insert revealed homology to recX on both nucleotide and protein level. 40 μg of the purified r-SIF showed immediate spermicidal activity in vitro for mouse sperm. Scanning electron micrograph of the r-SIF treated sperm showed intense morphological damage to sperm. FITC labeled r-SIF showed highest fluorescence at the head region of the sperm. 5 μg of purified r-SIF exhibited a complete contraceptive effect in mouse model.
CONCLUSION
r-SIF could be seen as potential target to be developed as potent and safe vaginal contraceptive in future.
背景
为了控制人口过剩和意外怀孕,由于阴道避孕剂可以局部应用,可能避免全身效应,因此最近引起了人们的极大兴趣。然而,基于洗涤剂的合成阴道避孕剂与非特异性细胞毒性相关,限制了其应用,并激发了人们对开发具有生物来源的阴道避孕药的极大兴趣,以控制生殖和最终增长的人口。在这项研究中,我们已经从生物来源即大肠杆菌中克隆、过表达了一个编码精子固定因子(SIF)的大肠杆菌基因,该因子可抑制精子运动,用于开发阴道避孕药。还确定了大肠杆菌重组精子固定因子(r-SIF)的避孕效果。
方法
从一名不育男性的精液样本中分离出的大肠杆菌菌株的基因组 DNA 文库被构建,用于鉴定和克隆编码大肠杆菌 SIF 的基因。该基因被亚克隆到 pBADmycHisB 中进行过表达,然后使用 Ni-NTA 亲和层析纯化 r-SIF。评估 r-SIF 对小鼠精子活力、活力和形态的影响。通过荧光标记证明 r-SIF 与小鼠精子的结合。在小鼠模型中检查 r-SIF 的避孕效果。
结果
基因组文库产生了五百个转化体;发现五个克隆具有精子固定活性。其中一个转化体中插入 DNA 序列的蛋白质产物显示出最大的精子固定活性。插入序列中 ORFs 的序列分析显示在核苷酸和蛋白质水平上与 recX 同源。40μg 的纯化 r-SIF 在体外对小鼠精子表现出立即的杀精活性。r-SIF 处理过的精子的扫描电子显微镜照片显示精子的形态损伤严重。FITC 标记的 r-SIF 在精子头部区域显示出最高的荧光。纯化的 5μg r-SIF 在小鼠模型中表现出完全的避孕效果。
结论
r-SIF 可被视为潜在的靶点,未来可能开发为有效且安全的阴道避孕药。
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