Your search keyword '"β-ngf"' showing total 8 results

1. Ovulation mechanism in South American Camelids: The active role of β-NGF as the chemical signal eliciting ovulation in llamas and alpacas.

Author

Silva M, Paiva L, and Ratto MH

Subjects

Animals, Female, Male, Semen, Camelids, New World physiology, Nerve Growth Factor metabolism, Ovulation physiology

Abstract

The ovulation-inducing effect of seminal plasma was first suggested in Bactrian camels over 30 years ago, initiating a long search to identify the 'ovulation-inducing factor' (OIF) present in camelids semen. During the last decade, primarily in llamas and alpacas, this molecule has been intensively studied characterizing its biological and chemical properties and ultimately identifying it as β-Nerve Growth Factor (β-NGF). The high concentration of OIF/β-NGF in seminal plasma of llamas and alpacas, and the striking effects of seminal fluid on ovarian function strongly support the notion of an endocrine mode of action. Also, have challenged the dogma of mating induced ovulation in camelid species, questioning the classical definition of reflex ovulators, which at the light of new evidence should be revised and updated. On the other hand, the presence of OIF/β-NGF and its ovulatory effect in camelids confirm the notion that seminal plasma is not only a transport and survival medium for sperm but also, a signaling agent targeting female tissues after insemination, generating relevant physiological and reproductive consequences. The presence of this molecule, conserved among induced as well as spontaneous ovulating species, clearly suggests that the potential impacts of this reproductive feature extend beyond the camelid species and may have broad implications in mammalian fertility. The aim of the present review is to provide a brief summary of all research efforts undertaken to isolate and identify the ovulation inducing factor present in the seminal plasma of camelids. Also to give an update of the current understanding of the mechanism of action of seminal β-NGF, at central and ovarian level; finally suggesting possible brain targets for this molecule., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

2. Physiology and modulation factors of ovulation in rabbit reproduction management

Author

Simona Mattioli, Margherita Maranesi, Cesare Castellini, Alessandro Dal Bosco, Maria Arias-Álvarez, Pedro Luis Lorenzo, Pilar García Rebollar, and Rosa María García-García

Subjects

rabbit, ovulation, seminal plasma, β-ngf, gnrh, reproduction, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Rabbit is an induced ovulatory species, so ovulation takes place after mating. Traditionally, exogenous and synthetic hormonal factors (administered by intramuscular and intravaginal route) such as GnRH and analogues, or different physical procedures (i.e. stimulation by intravaginal cannula) have been used to induce ovulation in females when artificial insemination is applied in rabbit farms. Restriction and public rejection of the use of hormones is leading to the study of the seminal plasma components with potential action on ovulation induction. The aim of the present review is to collect and summarise the strategies used in recent years to trigger ovulation and improve rabbit fertility management with respect to more animal-friendly manipulation methods. Furthermore, special attention has been paid to the use of a semen component (as endogen molecule) such as beta nerve growth factor (β-NGF) in male and female rabbit reproductive physiology. This neurotrophin and its receptors (TrKA and p75NTR) are abundantly distributed in both male and female rabbit reproductive tracts, and it seems to have an important physiological role in sperm maturation and behaviour (velocity, apoptosis and capacitation), as well as a modulatory factor of ovulation. Endogen β-NGF is diluted in the seminal doses with the extenders; hence it could be considered an innovative and alternative strategy to avoid the current exogenous (by intramuscular route) and stressful hormonal treatments used in ovulation induction. Their addition in seminal dose could be more physiological and improve animal welfare in rabbit farms.

Published

2021

3. Editorial: New Insights on Seminal Factors Signaling Female Reproduction in Mammals

Author

Margherita Maranesi, Massimo Zerani, and Mauricio Silva

Subjects

nerve growth factor, β-NGF, seminal plasma, ovulation, ovary, corpus luteum, Veterinary medicine, SF600-1100

Published

2022

4. β-nerve growth factor identification in male rabbit genital tract and seminal plasma and its role in ovulation induction in rabbit does

Author

Rosa M. Garcia-Garcia, Maria del Mar Masdeu, Ana Sanchez Rodriguez, Pilar Millan, Maria Arias-Alvarez, Osama G. Sakr, Jose M. Bautista, Cesare Castellini, Pedro L. Lorenzo, and Pilar G. Rebollar

Subjects

β-ngf, seminal plasma, accessory male sex glands, ovulation, rabbit, Animal culture, SF1-1100

Abstract

The neurotrophin β-nerve growth factor (NGF) has been described as an important mediator of seminal plasma-induced ovulation in reflexive ovulators like camelids, but this action has not been evidenced in rabbits. In this study, the mRNA expression of NGF was analysed in rabbit male organs by PCR and in a purified basic fraction of seminal plasma by liquid chromatography mass spectrometry. Besides, the ovulatory response [ovulation rate (OR), corpora lutea number, LH peak and progesterone profile] of 27 rabbit does was recorded after injection with murine NGF, gonadoreline (GnRH) or saline solution (SS). An empty catheter was introduced through the vagina (n = 4 animals per group) to simulate the nervous/mechanical stimulus of coitus. Molecular studies confirmed the expression of β-NGF mRNA in the prostate, seminal gland and testicles of male adult rabbits, and the presence of the protein in seminal plasma. For the in vivo experiment, all GnRH-group does exhibited a significantly higher OR (100%) compared to females treated with NGF (30%) and SS (25%), who showed significantly lower LH and progesterone concentrations at 120 min. However, in the non-vaginally stimulated animals, only the gonadoreline group ovulated properly, since no ovulation was recorded in the SS group, and only 17% of the NGF does ovulated; this was associated to a tendency to a higher rate of anovulatory haemorrhagic follicles. mRNA expression of NGF and its presence in seminal plasma evidence a role in rabbit reproduction. Nevertheless, murine NGF triggered some stimulatory effect in the females but not enough to elicit a significant ovulatory response.

Published

2018

5. β-nerve growth factor identification in male rabbit genital tract and seminal plasma and its role in ovulation induction in rabbit does.

Author

Garcia-Garcia, Rosa M., Masdeu, Maria del Mar, Sanchez Rodriguez, Ana, Millan, Pilar, Arias-Alvarez, Maria, Sakr, Osama G., Bautista, Jose M., Castellini, Cesare, Lorenzo, Pedro L., and Rebollar, Pilar G.

Subjects

*NEUROTROPHINS, *NERVE growth factor, *GENITALIA, *SEMINAL proteins, *INDUCED ovulation

Abstract

The neurotrophin β-nerve growth factor (NGF) has been described as an important mediator of seminal plasma-induced ovulation in reflexive ovulators like camelids, but this action has not been evidenced in rabbits. In this study, the mRNA expression of NGF was analysed in rabbit male organs by PCR and in a purified basic fraction of seminal plasma by liquid chromatography mass spectrometry. Besides, the ovulatory response [ovulation rate (OR), corpora lutea number, LH peak and progesterone profile] of 27 rabbit does was recorded after injection with murine NGF, gonadoreline (GnRH) or saline solution (SS). An empty catheter was introduced through the vagina (n=4 animals per group) to simulate the nervous/mechanical stimulus of coitus. Molecular studies confirmed the expression of β-NGF mRNA in the prostate, seminal gland and testicles of male adult rabbits, and the presence of the protein in seminal plasma. For the in vivo experiment, all GnRH-group does exhibited a significantly higher OR (100%) compared to females treated with NGF (30%) and SS (25%), who showed significantly lower LH and progesterone concentrations at 120 min. However, in the non-vaginally stimulated animals, only the gonadoreline group ovulated properly, since no ovulation was recorded in the SS group, and only 17% of the NGF does ovulated; this was associated to a tendency to a higher rate of anovulatory haemorrhagic follicles. mRNA expression of NGF and its presence in seminal plasma evidence a role in rabbit reproduction. Nevertheless, murine NGF triggered some stimulatory effect in the females but not enough to elicit a significant ovulatory response. [ABSTRACT FROM AUTHOR]

Published

2018

6. Effect of the Camelid’s Seminal Plasma Ovulation-Inducing Factor/β-NGF: A Kisspeptin Target Hypothesis

Author

Khalid El Allali, Najlae El Bousmaki, Hassan Ainani, and Valérie Simonneaux

Subjects

ovulation-inducing factor, β-NGF, camelids, camel, ovulation, seminal plasma, Veterinary medicine, SF600-1100

Abstract

Female mammals are classified into spontaneous and induced ovulators based on the mechanism eliciting ovulation. Ovulation in spontaneous species (e.g., human, sheep, cattle, horse, pigs, and most rodents) occurs at regular intervals and depends upon the circulating estradiol. However, in induced ovulators (e.g., rabbits, ferrets, cats, and camelids), ovulation is associated with coitus. In the later, various factors have been proposed to trigger ovulation, including auditory, visual, olfactory, and mechanic stimuli. However, other studies have identified a biochemical component in the semen of induced ovulators responsible for the induction of ovulation and named accordingly ovulation-inducing factor (OIF). In camelids, intramuscular or intrauterine administration of seminal plasma (SP) was shown to induce the preovulatory luteinizing hormone (LH) surge followed by ovulation and subsequent formation of corpus luteum. Recently, this OIF has been identified from SP as a neurotrophin, the β subunit of nerve growth factor (β-NGF). β-NGF is well known as promoting neuron survival and growth, but in this case, it appears to induce ovulation through an endocrine mode of action. Indeed, β-NGF may be absorbed through the endometrium to be conveyed, via the blood stream, to the central structures regulating the LH preovulatory surge. In this review, we provide a summary of the most relevant results obtained in the field, and we propose a working hypothesis for the central action of β-NGF based on our recent demonstration of the presence of neurons expressing kisspeptin, a potent stimulator of GnRH/LH, in the camel hypothalamus.

Published

2017

7. A comparative study of the effects of intramuscular administration of gonadorelin, mating and intrauterine infusion of either raw seminal plasma or seminal plasma purified β- NGF on luteal development in llamas.

Author

Silva, M, Urra, F, Ulloa‐Leal, C, and Ratto, MH

Subjects

*LUTEINIZING hormone releasing hormone, *FETAL development, *SEMINAL vesicles, *SEMINAL proteins, *NERVE growth factor

Abstract

Contents The aim of this study was to compare the effect of the intramuscular administration of 50 μg of gonadorelin acetate versus natural mating, intrauterine infusion (i.u.) of a physiological relevant dose of either raw llama seminal plasma ( SP) or purified beta-nerve growth factor from seminal origin (spβ- NGF) on ovulation rate and corpus luteum ( CL) development and function in llamas. Females with a follicle (≥8 mm) were assigned to groups: (i) i.m. administration of 50 μg of gonadorelin acetate (Gn RH; positive control; n = 4); (ii) single mating (mating; n = 6); (iii) i.u. infusion of 4 ml of llama SP ( SP; n = 4); or (iv) i.u. infusion of 10 mg of spβ- NGF contained in 4 ml of PBS (phosphate-buffered saline) (spβ- NGF; n = 6). Ovaries were examined by power Doppler ultrasonography at 0, 1, 3, 6, 12 and 24 hr after treatment to determine preovulatory follicle vascularization area ( VA), and additionally every 12 hr until Day 2 (Day of treatment = Day 0) to determine ovulation. Afterwards, ovaries were examined every other day until Day 8 to evaluate CL diameter and VA. Blood samples were collected on Days 0, 2, 4, 6 and 8 to determine plasma progesterone (P4) concentration. Ovulation rate did not differ ( p = .7) among groups, but treatment affected ( p < .0001) preovulatory follicle VA. Neither treatment administration nor treatment by time interaction affected ( p ≥ .4) CL diameter, VA and plasma P4 concentration. Mating tended ( p = .08) to increase CL VA when compared to the seminal plasma group by Day 8. Intrauterine administration of seminal plasma or spβ- NGF does not increase CL size and function when compared to i.m. Gn RH treatment, suggesting that the administration route of spβ- NGF influences its luteotrophic effect in llamas. [ABSTRACT FROM AUTHOR]

Published

2017

8. β-nerve growth factor identification in male rabbit genital tract and seminal plasma and its role in ovulation induction in rabbit does

Author

Ana Sánchez Rodríguez, Rosa M. Garcia-Garcia, Pedro Lorenzo, Maria del Mar Masdeu, Cesare Castellini, O. G. Sakr, Pilar Millán, Pilar García Rebollar, Maria Arias-Alvarez, and José M. Bautista

Subjects

medicine.medical_specialty, Biología, medicine.medical_treatment, media_common.quotation_subject, rabbit, Biology, 03 medical and health sciences, 0302 clinical medicine, Mediator, Internal medicine, Blood plasma, medicine, Ovulation, β-ngf, lcsh:SF1-1100, media_common, 030219 obstetrics & reproductive medicine, Growth factor, 0402 animal and dairy science, accessory male sex glands, 04 agricultural and veterinary sciences, 040201 dairy & animal science, ovulation, seminal plasma, β-NGF, Animal Science and Zoology, medicine.anatomical_structure, Endocrinology, Nerve growth factor, nervous system, Vagina, biology.protein, Ovulation induction, lcsh:Animal culture, Neurotrophin

Abstract

The neurotrophin b-nerve growth factor (NGF) has been described as an important mediator of seminal plasma-induced ovulation in reflexive ovulators like camelids, but this action has not been evidenced in rabbits. In this study, the mRNA expression of NGF was analysed in rabbit male organs by PCR and in a purified basic fraction of seminal plasma by liquid chromatography mass spectrometry. Besides, the ovulatory response [ovulation rate (OR), corpora lutea number, LH peak and progesterone profile] of 27 rabbit does was recorded after injection with murine NGF, gonadoreline (GnRH) or saline solution (SS). An empty catheter was introduced through the vagina (n ¼ 4 animals per group) to simulate the nervous/mechanical stimulus of coitus. Molecular studies confirmed the expression of b-NGF mRNA in the prostate, seminal gland and testicles of male adult rabbits, and the presence of the protein in seminal plasma. For the in vivo experiment, all GnRH-group does exhibited a significantly higher OR (100%) compared to females treated with NGF (30%) and SS (25%), who showed significantly lower LH and progesterone concentrations at 120 min. However, in the non-vaginally stimulated animals, only the gonadoreline group ovulated properly, since no ovulation was recorded in the SS group, and only 17% of the NGF does ovulated; this was associated to a tendency to a higher rate of anovulatory haemorrhagic follicles. mRNA expression of NGF and its presence in seminal plasma evidence a role in rabbit reproduction. Nevertheless, murine NGF triggered some stimulatory effect in the females but not enough to elicit a significant ovulatory response.

Published

2017