Jason Poff scite author profile

Little is known about matrix metalloproteinases (MMPs), enzymes that are required for the structural remodeling and angiogenesis that occur in the corpus luteum (CL) during the first several days postovulation. In fact, little attention has focused on early CL function including the regulation of progesterone (P4) production. Thus, the objective of the present study was 1) to investigate the effects of insulin, LH, and dibutyryl cAMP on P4 production and cell numbers and 2) to identify MMPs in the 4-day-old CL, with use of a defined culture system. Cultures were seeded with either 1 x 10(6) or 0.5 x 10(6) cells. All cultures containing insulin had higher P4 levels and cell numbers (p < 0.05) than those without. In cultures containing insulin, basal P4 levels were high throughout the culture period. Furthermore, neither LH nor dibutyryl cAMP stimulated P4 production (p > 0.05) at a seeding density of 1 x 10(6), whereas they stimulated P4 production (p < 0.05) at a seeding density of 0.5 x 10(6) on Days 6 and 8 of culture. In conditioned medium of control cultures seeded with 0.5 x 10(6) cells, substrate gel electrophoresis (zymography) showed two intense bands that migrated at M(r) approximately 97,000 and approximately 65,000-64,000, while two weaker ones migrated at M(r) approximately 88,000 and approximately 64,000-63,000. The molecular weights of the M(r) approximately 97,000 and approximately 88,000 species were consistent with MMP-9 family members, while the molecular weights of the M(r) approximately 65,000-64,000 and approximately 64,000-63,000 species were consistent with MMP-2 family members.(ABSTRACT TRUNCATED AT 250 WORDS)

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Support for a Physiological Role of Endogenous Catecholamines in the Stimulation of Bovine Luteal Progesterone Production1

Battista

Rexroad

Poff

et al. 1989

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To determine if catecholamines were present in bovine luteal tissue, corpora lutea (CL) were obtained during the mid-luteal phase (Days 10-12) and the concentration of dopamine (DA) and norepinephrine (NE) was determined by high-performance liquid chromatography. Both DA and NE were detected in luteal tissue at mean concentrations of 41.9 +/- 5.73 and 10.2 +/- 2.51 ng/g for DA and NE, respectively. These concentrations represented a luteal content of 306.6 +/- 66.88 ng/CL for DA and 70.5 +/- 16.88 ng/CL for NE. In vitro, DA at concentrations of 1.0 mM to 0.01 mM stimulated the production of progesterone (P4, p less than 0.05). The response to DA was inhibited by propranolol (a beta-adrenergic receptor antagonist, p less than 0.05) but not by phentolamine, phenoxybenzamine (alpha-adrenergic receptor antagonists), or haloperidol (a DA receptor antagonist, p greater than 0.05). Neither L-tyrosine nor L-dopa altered P4 production (p greater than 0.05). Inhibition of DA beta-hydroxylase, the enzyme that catalyzes the conversion of DA to NE by FLA-63 blocked the DA-induced increases in luteal P4 production (p less than 0.05). These results demonstrate the existence of DA and NE in bovine luteal tissue and indicate that exogenous DA can be converted to NE in luteal tissue. The results support a physiological role for catecholamines in the stimulation of bovine luteal function.

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Biogenic amine regulation of bovine luteal progesterone production in vivo

Battista¹,

Poff²,

Deaver³

et al. 1987

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Biogenic amines were administered using osmotic pumps placed subcutaneously in the neck region of regularly cycling, non-lactating dairy cows on Days 9-11 (oestrus = Day 0) of the oestrous cycle. Blood samples were collected using indwelling jugular catheters and the plasma progesterone concentrations were measured. Samples were collected at 4-h intervals for the first 12 h of treatment and thereafter at 12-h intervals for the remainder of the 72-h treatment period. After administration of various doses of noradrenaline, adrenaline and serotonin (0.5-2.0 micrograms/kg/h) significant elevation of plasma progesterone was achieved at a dosage of 2.0 micrograms/kg/h (P less than 0.01). The response to adrenaline was greater than that observed for noradrenaline and serotonin (P less than 0.05). Within-treatment comparison to pretreatment samples showed plasma progesterone concentrations to increase within 4 h after the administration of noradrenaline, adrenaline and serotonin (P less than 0.05) and this enhancement was maintained throughout the treatment period (P less than 0.05). The elevation in plasma progesterone concentrations induced by noradrenaline, adrenaline and serotonin was independent of changes in circulating concentrations of luteinizing hormone. These results support a physiological role for endogenous biogenic amines in the control of bovine luteal progesterone production.

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Effects of antibiotics and medium supplements on steroidogenesis in cultured cow luteal cells

Poff

Fairchild²,

Condon³

1988

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Summary. Corpora lutea were removed from regularly cycling dairy cows, dissociated with collagenase and cultured for 8 or 10 days in Ham's F-12 medium. In Exp. 1 treatment with insulin, or an insulin\p=n-\transferrin\p=n-\seleniumcombination (ITS), increased progesterone production from basal levels on Day 4 ofculture to 234% (P < 0\m=.\01) above controls on Day 10. LH alone increased progesterone production 45% above controls on Day 10 (P > 0\m=.\05). When LH was combined with insulin or ITS, progesterone production was stimulated to an average of 1802% (P < 0\m=.\01) above controls on Day 10 of culture. Transferrin or selenium without insulin did not allow LH to stimulate progesterone synthesis. In Exp. II, LH alone or LH plus gentamicin or penicillin\p=n-\ streptomycin increased progesterone production from basal levels on Day 2 steadily to an average of 468% (P < 0\m=.\01) above controls (no antibiotics) by Day 8 of culture. The addition of amphotericin-B, alone or in combination with the other antibiotics, inhibited all LH-stimulated progesterone synthesis, but did not affect basal progesterone levels. We conclude that insulin is essential for maximal steroidogenesis in a bovine luteal cell culture system, and that LH-stimulated progesterone production is inhibited in the presence of amphotericin-B, but is not inhibited by gentamicin or penicillin\p=n-\ streptomycin. The elimination of amphotericin-B, coupled with the addition of insulin to the cell culture system increased the responsiveness of the cells to LH. These culture conditions represent the first report in which LH increased total progesterone production for 10 days, maintaining luteal function in a chemically-defined culture system.

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Jason Poff

A novel polymeric chlorhexidine delivery device for the treatment of periodontal disease

Four-Day-Old Bovine Corpus Luteum: Progesterone Production and Identification of Matrix Metalloproteinase Activity in Vitro1

Support for a Physiological Role of Endogenous Catecholamines in the Stimulation of Bovine Luteal Progesterone Production1

Biogenic amine regulation of bovine luteal progesterone production in vivo

Effects of antibiotics and medium supplements on steroidogenesis in cultured cow luteal cells

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