It is well known that mycoplasma can cause infection in the male reproductive tract. Some studies indicate that Ureaplasma urealyticum (Uu), a species of mycoplasma, is associated with male infertility. Sulfogalactosylglycerolipid(SGG) is the major mammalian male germ cell glycolipid, synthesized via sulfation of galactosylglycerolipid in early primary spermatocytes. Some experiments have proved that SGG is implicated in sperm-egg binding by linking arylsulfatase A (AS-A), SGG's ligand on the egg. SGG can be desulfated by binding mycoplasmas and transformed galactosylglycerolipid, which doesn't bind AS-A. So the binding and degradation of the sperm SGG by mycoplasmas may play a role in the induction of male infertility. As a kind of mycoplasma, Uu can also bind SGG, which offers another explantion for the association of Uu infection with male infertility caused by Uu infection.
Female ; Galactolipids ; physiology ; Humans ; Infertility, Male ; etiology ; Male ; Mycoplasma Infections ; complications ; Sperm-Ovum Interactions ; Spermatozoa ; chemistry

Sperm-egg plasma membrane interaction is one of the important steps of mammalian fertilization. Many sperm and egg surface proteins are reported to be involved in sperm-zona pellucida interaction. Sulfogalactosylglycerolipid(SGG) is the major sulfoglycolipid in the germ cells of mammalian and lower vertebrates, mainly in the sperm head. It is a differentiation marker in spermatogenesis restricted to the zygotene and early pachytene spermatocytes. Sulfolipidimmobilizing protein 1 (SLIP1) is the major sulfoglycolipid of mammalian germ cells and eggs, with the same localization as SGG in the sperm. SLIP1 binds specificity to SGG, both playing a vital role in sperm-egg interaction. This article is aimed at reviewing the localization of SGG and SLIP1 in the germ cell surface and their role and related mechanism in gamete formation.
Animals ; Carrier Proteins ; physiology ; Cell Membrane ; physiology ; Female ; Galactolipids ; physiology ; Humans ; Male ; Sperm-Ovum Interactions ; physiology

OBJECTIVETo study the feasibility of digalactosyl diglyceride (DGDG) , which was used as a new type of emulsifier to prepare submicro-emulsion of bay oil.

METHODBay oil was employed as the model drug, emulsifer in oil method was used to prepare foremilk. Through single factor investigation and central composite design-response surface methodology (CCD-RSM) , we optimized the preparation technology and formula respectively. The stability of sub-microemulsion was studied.

RESULTThe optima technology was following: emulsifer in oil method was used to prepare foremilk, temp was 60 degrees C, the micro emulsion was prepared by two-step high pressure homogen method with that the pressure was 80 Pa, 10 times, micropore film was used to sterilize, filling and sealing at the preservation of nitrogen. The best formula was following: soybean oil was 1.1%, DGDG was 1.6%, and sodium oleate was 0. 16%. The particle size of three batch submicro-emulsions were from 168.0 to 169.3 nm; Zeta potential were from-25.53 to 24.90 mV, pH value were from 8.48 to 8.52. The deviation between measured value and predictive value was 1.8%. It was stable in high temperature and illumination.

CONCLUSIONDGDG can be used as the emulsifier of bay oil sub-microemulsion.

Drug Stability ; Emulsifying Agents ; chemistry ; Emulsions ; chemistry ; Galactolipids ; chemistry ; Plant Oils ; chemistry ; Temperature

OBJECTIVETo investigate the anti-HIV constituents from the root of Mirabilis jalapa.

METHODThe compounds were isolated by column chromatography on silica gel, Sephadex LH - 20, MCI-gel CHP-20P and RP-18. The structure were identified by means of NMR and MS analyses (1H-NMR, 13C-NMR, MS).

RESULTEleven compounds were isolated and identified as astragaloside II (1), astragaloside II (2), astragaloside IV (3), astragaloside VI (4), flazin (5), 4'-hydroxy-2, 3-dihydroflavone 7-beta-D-glucopyranoside (6), gingerglycolipid A (7), 3, 4-dihydroxybenzaldehyd (8), p-hydroxybenzaldehyde (9), beta-sitosterol (10) and daucosterol (11).

CONCLUSIONCompounds 1-9 were obtained from this genus for the first time.

Benzaldehydes ; analysis ; chemistry ; Carbolines ; analysis ; chemistry ; Chromatography, Gel ; Furans ; analysis ; chemistry ; Galactolipids ; analysis ; chemistry ; Magnetic Resonance Spectroscopy ; Mass Spectrometry ; Mirabilis ; chemistry ; Plant Roots ; chemistry ; Sitosterols ; analysis ; chemistry

Sulfogalactosylglycerolipid (SGG) is the main glycolipid in male mammalian germ cells, which is selectively and highly expressed in mammalian testes and helps form the lipid bilayer of cell membrane. In the process of spermatogenesis, SGG is involved in the meiosis of spermiocytes. Either deficiency or accumulation of SGG will lead to male infertility. SGG homeostasis in the testis is the premise of normal spermatogenesis. In the process of sperm-zona binding, SGG becomes a component of lipid raft and provides a platform for signal transduction. The SGG binding protein plays a role in sperm-egg recognition and membrane fusion. SGG has a great research value and application prospect in male reproduction.
Animals ; Cell Membrane ; Galactolipids ; physiology ; Humans ; Infertility, Male ; etiology ; Lipid Bilayers ; metabolism ; Male ; Signal Transduction ; Sperm-Ovum Interactions ; physiology ; Spermatogenesis ; physiology ; Spermatozoa ; metabolism ; Testis ; physiology

OBJECTIVETo study the influence of Ureaplasma urealyticum (Uu) infection on the sperm-egg binding associated molecule, sulfogalactosylglycerolipid (SGG).

METHODSEpididymal sperm was collected from adult mice. The sperm suspension was randomly divided into 4 groups: Uu group (coincubated with Uu suspension), medium group (coincubated with Uu medium), normal group and PRS group. The indirect immunofluorescence technique was used to localize SGG on the sperm membrane and to observe the influence of Uu on SGG.

RESULTSIn the epididymal sperm, SGG was localized to the head plasma membrane overlaying the acrosomal region. The SGG-positive rate of the sperm coincubated with Uu medium was 82.0%, while that of the sperm coincubated with Uu suspension was reduced to 39.0% (P = 0.001).

CONCLUSIONUu can adhere to the sperm surface. SGG might be a membrane receptor on the sperm surface for Uu infection of the mammalian male genital tract. The blockage of SGG by Uu might be one of the molecular mechanisms correlative to male infertility induced by Uu infection.

Animals ; Cell Membrane ; metabolism ; Galactolipids ; biosynthesis ; Infertility, Male ; etiology ; Male ; Mice ; Mice, Inbred BALB C ; Random Allocation ; Sperm-Ovum Interactions ; physiology ; Spermatozoa ; metabolism ; Ureaplasma Infections ; complications ; metabolism ; Ureaplasma urealyticum