DIRECT STIMULATION OF BOVINE OVARIAN PROGESTERONE SECRETION BY LOW CONCENTRATIONS OF a-INTERFERON

Lück, Martin; Shale, J.A; Payne, J.H.

doi:10.1677/joe.0.135r005

Cited by 7 publications

(2 citation statements)

References 19 publications

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“…Other reports also suggest that IFN interacts with the binding of a variety of compounds to their respective cell surface receptors, thereby modifying the function of different hormones (Kohn et al, 1976; Grollman et al, 1978; Blalock and Stanton, 1980). In ruminants, low doses of bovine IFNα (10 −15 mol/l) stimulated secretion of progesterone by granulosa and luteal cells; however, high doses (10 −10 mol/l) suppressed progesterone secretion (Luck et al, 1992). This suggests that ovarian cells can respond directly to IFN‐like proteins, and the mechanism by which bovine IFNα causes reduction in plasma progesterone is probably due to interference with pituitary support for luteal synthesis of progesterone (Barros et al, 1992).…”

Section: Discussionmentioning

confidence: 99%

Comparative effects of interferon alpha‐2b and pegylated interferon alpha‐2b on menstrual cycles and ovarian hormones in cynomolgus monkeys

Enright¹,

Compton²,

Collins³

et al. 2009

Birth Defects Research Pt B

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Administration of hr-IFNalpha2b or PEG-hr-IFNalpha2b at high doses to cynomolgus monkeys resulted in similar effects on menstrual cycles, estradiol and progesterone profiles, and exhibited evidence of reversibility upon cessation of dosing. These results suggest that the previously observed high-dose IFNalpha-related effects on the maintenance of pregnancy in monkeys are likely the result of altered ovarian function.

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Section: Discussionmentioning

confidence: 99%

Comparative effects of interferon alpha‐2b and pegylated interferon alpha‐2b on menstrual cycles and ovarian hormones in cynomolgus monkeys

Enright¹,

Compton²,

Collins³

et al. 2009

Birth Defects Research Pt B

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show abstract

“…The mechanism of action of IFN may involve suppression of both oestradiol and oxytocin receptors probably at the transcriptional level (Bazer et al, 1994). Bovine Interferonalpha (bIFNα) has been shown to stimulate progesterone production by luteal cells in vitro, without affecting oxytocin output (Luck et al, 1992). Imakawa et al (1993) reported that maternal granulocyte macrophage colony stimulating factor might be involved in stimulating embryo IFN production.…”

Section: Interferon Oxytocin Receptors Interaction and Luteal Functionmentioning

confidence: 99%

Bovine Embryonic Mortality with Special Reference to Mineral Deficiency, Heat Stress and Endocrine Factors: A Review

Kumbhar¹,

Charpe²,

Kumar³

et al. 2021

IJBSM

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Embryonic Mortality is the major cause of reproductive and economic loss in cattle and Buffaloes. Embryonic Mortality is more common during the early than the late embryonic period, i.e., from day 8th to 16th at the hatching of blastocysts and initiation of elongation and commencement of implantation without affecting cycle lengths. Early embryonic mortality is a major source of embryonic and economic loss with mortality rate up to 40%. Embryonic mortality is also reported due to mineral deficiency and heat stress in cattle and buffaloes. Physical modifications of animal environment, nutritional management with Antioxidant, trace minerals and genetic development of breeds that are less sensitive to heat stress should be best solution. Embryonic death occurs at the time of maternal recognition of pregnancy, probably related to a failure of the Interferon tau (IFNι) secretory mechanism along with progesterone deficiency and luteal insufficiency. Recent research, both in terms of physiological mechanisms and pharmacological treatments has mostly focused on the period of maternal recognition of pregnancy or the anti-luteolytic effect. hCG/ GnRH /Progesterone supplementation have shown positive results. Supplementation of interferon as anti-luteolytic agent and supplementing Omega-3 has shown encouraging results. Ovarian examination, Animal history, blood/milk progesterone levels, PAG test and ultrasound appear to be the only practical tool presently available for diagnosis of embryonic mortality. This present review article is covering all the aspects of embryonic mortality with special reference totrace minerals, heat stress, hormonal impact and interferon tau.

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Intercellular communication in the bovine corpus luteum

Pate

1996

Theriogenology

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DIRECT STIMULATION OF BOVINE OVARIAN PROGESTERONE SECRETION BY LOW CONCENTRATIONS OF a-INTERFERON

Cited by 7 publications

References 19 publications

Comparative effects of interferon alpha‐2b and pegylated interferon alpha‐2b on menstrual cycles and ovarian hormones in cynomolgus monkeys

Comparative effects of interferon alpha‐2b and pegylated interferon alpha‐2b on menstrual cycles and ovarian hormones in cynomolgus monkeys

Bovine Embryonic Mortality with Special Reference to Mineral Deficiency, Heat Stress and Endocrine Factors: A Review

Intercellular communication in the bovine corpus luteum

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