Bioactive lipid profiling of mammalian spermatozoa

哺乳动物精子的生物活性脂质分析

• 批准号: 9020246
• 负责人: Polina V Lishko
• 金额: $ 23.31万
• 依托单位: UNIVERSITY OF CALIFORNIA BERKELEY
• 依托单位国家: 美国
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-03-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/9020246
• 关键词: Acrosome Reaction; Affect; Alkalinization; Attention; Bovine Serum Albumin; Calcium; Calcium Channel; CatSper; Cell membrane; Cells; Cyclodextrins; Cytoplasm; Data; Databases; Development; Diagnostic; Diagnostic tests; Etiology; Fatty Acids; Female; Fertility; Health; Homeostasis; Human; Infertility; Ion Channel; Knowledge; Lead; Lipids; Liquid substance; Literature; Lysophospholipids; Male Contraceptive Agents; Male Infertility; Mass Spectrum Analysis; Medical; Membrane; Methods; Molecular; Mus; Natural regeneration; Nonesterified Fatty Acids; Patch-Clamp Techniques; Phospholipids; Physiology; Polyunsaturated Fatty Acids; Potassium; Potassium Channel; Progesterone; Protons; Publishing; Regulation; Research; Resolution; Role; Signal Transduction; Sperm Capacitation; Sperm Maturation; Sperm Motility; Sphingosine; Steroids; Techniques; Testing; anandamide; cell type; improved; innovation; male; novel diagnostics; reproductive tract; research study; sperm cell; sperm function; steroid hormone; voltage

 DESCRIPTION (provided by applicant): Infertility constitutes a global medical problem, with male infertility contributing to half of all cases. Moreover, more than 70% of male infertility cass are considered idiopathic. This huge gap in our understanding of etiology of male infertility is partially attributed to our insufficient knowledge of physiology of spermatozoa, and human sperm cells in particular. While delicate regulation of sperm physiology occurs on many levels, its regulation by bioactive lipids deserves special attention. Our preliminary data indicate that several bioactive lipids influence the activity of sperm ion channels, which in turn regulate sperm motility and the acrosome reaction. For example, the steroid hormone progesterone stimulate the opening of the primary calcium channel of human sperm, CatSper, and controls sperm intracellular Ca2+. Progesterone also inhibits potassium sperm channel KSper. Our preliminary data indicate that CatSper channel can be inhibited by certain fatty acids, but also in addition to progesterone, can be up-regulated by an unknown sperm endogenous lipid easily extracted by fatty acid free bovine serum albumin (faf BSA) and ß-cyclodextrin. A brief incubation of sperm with either faf BSA or ß-cyclodextrin results in inhibition of CatSper activity. These experiments were done under conditions when sperm cytoplasm is removed, but sperm membrane stays intact. Moreover, such action is reversible indicating that the molecule responsible for activation of CatSper can be synthesized by intact sperm plasma membrane in the absence of secondary messengers. In addition, our recently published data indicate that many sperm ion channels and the molecules that modulate their activity are specific to human spermatozoa, and either are not observed, or their functions are altered in murine spermatozoa. This highlights the necessity to concentrate efforts of this proposal on studying bioactive lipid signaling in human spermatozoa specifically. In order to identify the molecule(s) responsible for sensitizing CatSper channel we will perform lipid extraction from human sperm plasma membrane by ß-cyclodextrin in order to deplete them from CatSper sensitizer, wait for the later to recover, and again extract lipids with ß-cyclodextrin. The newly synthesized lipids will be identified and tested for their ability to modulate CatSper. We will also obtain bioactive profiling of human ejaculated and capacitated spermatozoa. The knowledge gained from the proposed research will fill in gaps in our understanding of the basic mechanisms underlying the regulation of human sperm by bioactive lipids, may lead to the development of novel diagnostic tests for male infertility, and to the development of male contraceptives.

 描述（由申请人提供）：不育症是一个全球性的医学问题，男性不育症占所有病例的一半。此外，超过70%的男性不育卡斯被认为是特发性的。我们对男性不育病因学的理解存在巨大差距，部分原因是我们对精子，特别是人类精子细胞的生理学知识不足。虽然精子生理学的微妙调节发生在许多层面上，但生物活性脂质的调节值得特别关注。我们的初步数据表明，几种生物活性脂质影响精子离子通道的活性，从而调节精子 运动性和顶体反应。例如，类固醇激素孕酮刺激人类精子的初级钙通道CatSper的开放，并控制精子细胞内Ca 2+。孕酮还抑制钾精子通道KSper。我们的初步数据表明，CatSper通道可以被某些脂肪酸抑制，但除此之外， 孕酮可以被未知的精子内源性脂质上调，所述精子内源性脂质容易地被无脂肪酸的牛血清白蛋白（faf BSA）和β-环糊精提取。精子与faf BSA或β-环糊精的短暂孵育导致CatSper活性的抑制。这些实验 在精子细胞质被去除但精子膜保持完整的条件下进行。此外，这种作用是可逆的，表明负责活化的分子 CatSper的第二信使可以由完整的精子质膜在缺乏的情况下合成。此外，我们最近发表的数据表明，许多精子离子通道和调节其活性的分子对人类精子是特异性的，并且在小鼠精子中没有观察到，或者它们的功能被改变。这突出了集中精力研究人类精子中生物活性脂质信号的必要性。为了鉴定负责敏化CatSper通道的分子，我们将通过β-环糊精从人精子质膜中进行脂质提取，以便从CatSper敏化剂中耗尽它们，等待后者恢复，并再次用β-环糊精提取脂质。将鉴定新合成的脂质并检测其调节CatSper的能力。我们还将获得人类射精和获能精子的生物活性谱。从拟议的研究中获得的知识将填补我们对生物活性脂质调节人类精子的基本机制的理解中的空白，可能导致开发新的男性不育诊断测试，并开发男性避孕药。