Y.A. Leduc scite author profile

A component in seminal fluid elicits an ovulatory response and has been discovered in every species examined thus far. The existence of an ovulation-inducing factor (OIF) in seminal plasma has broad implications and evokes questions about identity, tissue sources, mechanism of action, role among species, and clinical relevance in infertility. Most of these questions remain unanswered. The goal of this study was to determine the identity of OIF in support of the hypothesis that it is a single distinct and widely conserved entity. Seminal plasma from llamas and bulls was used as representative of induced and spontaneous ovulators, respectively. A fraction isolated from llama seminal plasma by column chromatography was identified as OIF by eliciting luteinizing hormone (LH) release and ovulation in llamas. MALDI-TOF revealed a molecular mass of 13,221 Da, and 12-23 aa sequences of OIF had homology with human, porcine, bovine, and murine sequences of β nerve growth factor (β-NGF). X-ray diffraction data were used to solve the full sequence and structure of OIF as β-NGF. Neurite development and up-regulation of trkA in phaeochromocytoma (PC 12 ) cells in vitro confirmed NGF-like properties of OIF. Western blot analysis of llama and bull seminal plasma confirmed immunorecognition of OIF using polyclonal mouse anti-NGF, and administration of β-NGF from mouse submandibular glands induced ovulation in llamas. We conclude that OIF in seminal plasma is β-NGF and that it is highly conserved. An endocrine route of action of NGF elucidates a previously unknown pathway for the direct influence of the male on the hypothalamo-pituitary-gonadal axis of the inseminated female.neurotrophins | hypothalamus | fertility | neuroendocrine I n a monograph nearly 50 y ago, Thaddeus Mann summarized the natural properties of seminal plasma as a vehicle for sperm transport, a controller of sperm motility and capacitation, and as a stimulant of uterine contractility (1). Notwithstanding Mann's admonishment to resist the temptation "to assign to every newly discovered chemical constituent of semen a major role in the process of fertilization," recent isolation of a protein factor in seminal plasma (2-4) suggests an additional role of the ejaculateas an inducer of ovulation.The role of the fluid portion of the ejaculate, and the male accessory glands responsible for producing it, has been enigmatic. From an evolutionary perspective, it has been suggested that the male accessory glands likely originated as the machinery for producing a copulatory plug, which has the "chastity effect" of preventing the sperm of other males from entering the female tract, as well as minimizing sperm loss after insemination (5). If this is so, then the persistence of an elaborate accessory gland system in many species in which plug formation does not occur may be viewed as nothing more than an evolutionary vestige.The first reports of an ovulation-inducing factor (OIF) in semen resulted from the observation that ovulation occurred after intravaginal or intramuscula...

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Biochemical isolation and purification of ovulation-inducing factor (OIF) in seminal plasma of llamas

Ratto

Delbaere

Leduc

et al. 2011

Reprod Biol Endocrinol

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BackgroundThe objective of the present study was to isolate and purify the protein fraction(s) of llama seminal plasma responsible for the ovulation-inducing effect of the ejaculate.MethodsSemen collected from male llamas by artificial vagina was centrifuged and the seminal plasma was harvested and stored frozen. Seminal plasma was thawed and loaded onto a Type 1 macro-prep ceramic hydroxylapatite column and elution was carried out using a lineal gradient with 350 mM sodium phosphate. Three protein fractions were identified clearly (Fractions A, B, and C), where a prominent protein band with a mass of 14 kDa was identified in Fraction C. Fraction C was loaded into a sephacryl gel filtration column for further purification using fast protein liquid chromatography (FPLC). Isocratic elution resulted in 2 distinct protein fractions (Fractions C1 and C2). An in vivo bioassay (n = 10 to 11 llamas per group) was used to determine the ovarian effect of each fraction involving treatment with saline (negative control), whole seminal plasma (positive control), or seminal plasma Fractions A, B or C2. Ultrasonography was done to detect ovulation and CL formation, and blood samples were taken to measure plasma progesterone and LH concentrations.ResultsOvulation and CL formation was detected in 0/10, 10/11, 0/10, 2/11, and 10/11 llamas treated with saline, whole seminal plasma, Fractions A, B and C2 respectively (P < 0.001). A surge in circulating concentrations of LH was detected within 2 hours only in llamas treated with either whole seminal plasma or Fraction C2. Plasma progesterone concentration and CL diameter profiles were greatest (P < 0.05) in llamas treated with Fraction C2.ConclusionOvulation-inducing factor was isolated from llama seminal plasma as a 14 kDa protein molecule that elicits a preovulatory LH surge followed by ovulation and CL formation in llamas, suggesting an endocrine effect at the level of the hypothalamus (release of GnRH) or the pituitary (gonadotrophs).

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The structure of a universally employed enzyme: V8 protease fromStaphylococcus aureus

Prasad

Leduc

Hayakawa

et al. 2004

Acta Crystallogr D Biol Crystallogr

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V8 protease, an extracellular protease of Staphylococcus aureus, is related to the pancreatic serine proteases. The enzyme cleaves peptide bonds exclusively on the carbonyl side of aspartate and glutamate residues. Unlike the pancreatic serine proteases, V8 protease possesses no disulfide bridges. This is a major evolutionary difference, as all pancreatic proteases have at least two disulfide bridges. The structure of V8 protease shows structural similarity with several other serine proteases, specifically the epidermolytic toxins A and B from S. aureus and trypsin, in which the conformation of the active site is almost identical. V8 protease is also unique in that the positively charged N-terminus is involved in determining the substrate-specificity of the enzyme.

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Structure/function studies of phosphoryl transfer by phosphoenolpyruvate carboxykinase

Delbaere

Sudom

Prasad

et al. 2004

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Thermotoga maritima TM0298 is a highly thermostable mannitol dehydrogenase

Song

Ahluwalia

Leduc

et al. 2008

Appl Microbiol Biotechnol

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Thermotoga maritima TM0298 is annotated as an alcohol dehydrogenase, yet it shows high identity and similarity to mesophilic mannitol dehydrogenases. To investigate this enzyme further, its gene was cloned and expressed in Escherichia coli. The purified recombinant enzyme was most active on fructose and mannitol, making it the first known hyperthermophilic mannitol dehydrogenase. T. maritima mannitol dehydrogenase (TmMtDH) is optimally active between 90 and 100 degrees C and retains 63% of its activity at 120 degrees C but shows no detectable activity at room temperature. Its kinetic inactivation follows a first-order mechanism, with half-lives of 57 min at 80 degrees C and 6 min at 95 degrees C. Although TmMtDH has a higher V (max) with NADPH than with NADH, its catalytic efficiency is 2.2 times higher with NADH than with NADPH and 33 times higher with NAD(+) than with NADP(+). This cofactor specificity can be explained by the high density of negatively charged residues (Glu193, Asp195, and Glu196) downstream of the NAD(P) interaction site, the glycine motif. We demonstrate that TmMtDH contains a single catalytic zinc per subunit. Finally, we provide the first proof of concept that mannitol can be produced directly from glucose in a two-step enzymatic process, using a Thermotoga neapolitana xylose isomerase mutant and TmMtDH at 60 degrees C.

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Y.A. Leduc

The nerve of ovulation-inducing factor in semen

Biochemical isolation and purification of ovulation-inducing factor (OIF) in seminal plasma of llamas

The structure of a universally employed enzyme: V8 protease fromStaphylococcus aureus

Structure/function studies of phosphoryl transfer by phosphoenolpyruvate carboxykinase

Thermotoga maritima TM0298 is a highly thermostable mannitol dehydrogenase

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