Elham A. Afify scite author profile

Reported clinical and experimental findings have shown that baroreflex control of heart rate is attenuated in women compared with men. This study investigated whether the sexual dimorphism in baroreflex function relates to the ability of the male hormone testosterone to facilitate baroreflex responsiveness. Relative contributions of the vagal and sympathetic autonomic components to testosterone modulation of baroreflex function were also investigated. Baroreflex curves relating changes in heart rate to increases or decreases in blood pressure evoked by phenylephrine and sodium nitroprusside, respectively, were constructed in sham-operated rats and castrated rats with and without testosterone replacement. Slope of the curves was taken as an index of baroreflex sensitivity (BRS PE and BRS NP ). Castration (for 10 days) significantly reduced plasma testosterone levels and attenuated reflex bradycardia, as indicated by significantly smaller BRS PE in castrated rats compared with values in sham-operated rats (-0.85 +/- 0.07 vs. -1.51 +/- 0.10 beats/min per mm Hg). Testosterone replacement in castrated rats restored plasma testosterone and BRS PE to levels similar to those of sham-operated rats. Muscarinic blockade by atropine caused 55% reduction in BRS PE in sham-operated rats, an effect that was significantly (p < 0.05) attenuated in castrated rats and restored to intact levels after testosterone supplementation. beta-Adrenergic blockade by propranolol caused slight and insignificant decreases in BRS PE. Castration and testosterone supplementation had no effect on BRS NP, ruling out a modulatory effect of testosterone on reflex tachycardia. These data provide the first experimental evidence of a favorable role for testosterone in baroreceptor control of reflex bradycardia. Further, baroreflex modulation by testosterone appears to be autonomically mediated and involves an enhancement of cardiomotor vagal activity.

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Sex differences in pain and opioid mediated antinociception: Modulatory role of gonadal hormones

Nasser

Afify

2019

Life Sciences

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Role of carboxyl terminus of μ- and δ-opioid receptor in agonist -induced down-regulation

Afify

Law

Riedl

et al. 1998

Molecular Brain Research

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Cyclosporine Adversely Affects Baroreflexes via Inhibition of Testosterone Modulation of Cardiac Vagal Control

El‐Mas

Afify²,

Omar³

et al. 2002

J Pharmacol Exp Ther

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Previous studies have shown that the immunosuppressant drug cyclosporine A attenuates arterial baroreceptor function. This study investigated whether the modulatory effect of cyclosporine on baroreceptor function involves inhibition of the baroreflex-facilitatory effect of testosterone. The role of cardiac autonomic control in cyclosporine-testosterone baroreflex interaction was also investigated. Baroreflex curves relating bradycardic responses to increments in blood pressure evoked by phenylephrine were constructed in conscious, sham-operated, castrated rats and in testosterone-replaced castrated (CAS ϩ T) rats in the absence and presence of cyclosporine. The slopes of the curves were taken as an index of the baroreflex sensitivity (BRS). Short-term (11-13 days) cyclosporine treatment or castration reduced plasma testosterone levels and caused similar attenuation of the reflex bradycardia, as indicated by the significantly smaller BRS compared with sham-operated values (Ϫ0.97 Ϯ 0.07, Ϫ0.86 Ϯ 0.06, and Ϫ1.47 Ϯ 0.10 beats/min/mm Hg, respectively). The notion that androgens facilitate baroreflexes is further confirmed by the observation that testosterone replacement of castrated rats restored plasma testosterone and BRS to sham-operated levels. Cyclosporine had no effect on BRS in castrated rats but caused a significant reduction in CAS ϩ T rats. Muscarinic blockade by atropine caused approximately 60% reduction in the BRS in sham-operated rats, an effect that was significantly and similarly diminished by castration, cyclosporine, or their combination. ␤-Adrenergic blockade by propranolol caused no significant changes in BRS. These findings suggest that cyclosporine attenuates baroreflex responsiveness via, at least partly, inhibition of the testosteroneinduced facilitation of cardiomotor vagal control.

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Testosterone depletion contributes to cyclosporine-induced chronic impairment of acetylcholine renovascular relaxations

El‐Mas

Afify

Omar

et al. 2003

European Journal of Pharmacology

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Effect of Luffa aegyptiaca (seeds) and Carissa edulis (leaves) extracts on blood glucose level of normal and streptozotocin diabetic rats

El-Fiky

Abou-Karam

Afify

1996

Journal of Ethnopharmacology

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The involvement of K_ATP channels in morphine‐induced antinociception and hepatic oxidative stress in acute and inflammatory pain in rats

Afify

Khedr

Omar

et al. 2012

Fundamemntal Clinical Pharma

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This study investigated the role of K(ATP) channels in morphine-induced antinociception and hepatic oxidative stress in acute and inflammatory pain. The K(ATP) channel modulators (K(ATP) channel opener, diazoxide 100 mg/kg, p.o, and K(ATP) channel blocker, glibenclamide, 3 mg/kg i.p.) were administered with morphine (80 mg/kg, i.p.). Antinociception was assessed by the tail-flick and formalin tests in rats and measured by the area under the curve values and the maximum percent effect for 3 h. The indices of hepatic oxidative stress: glutathione, glutathione peroxidase, and malondialdehyde were then determined in the liver homogenates obtained from the treated animals. In both tests, glibenclamide antagonized morphine-induced antinociception, whereas diazoxide augmented it in the tail-flick test only. In the formalin test, glibenclamide alone has a significant hyperalgesic effect, whereas diazoxide decreased the number of flinches. Coadministration of glibenclamide with morphine antagonized the hepatotoxic effect of morphine in both animal models. In the tail-flick test, glibenclamide administered alone significantly increased malondialdehyde's level. Coadministration of diazoxide with morphine increased glutathione level in the formalin test. Diazoxide administered alone exacerbated the hepatic oxidative stress in both animal models. These findings suggest a role of K(ATP) channel modulators on morphine-induced antinociception and hepatic oxidative stress. The administration of glibenclamide may prevent morphine-induced hepatotoxicity. The effectiveness of diazoxide in the management of pain is limited due to its deleterious effect on the liver. However, the interaction of the K(ATP) channel modulators with morphine depends on the differential sensitivity to the pain stimulus.

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Characterization of the Antinociceptive Mechanisms of Khat Extract (Catha edulis) in Mice

et al. 2017

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This study investigated the antinociceptive mechanisms of khat extract (100, 200, and 400 mg/kg, i.p.) in four pain models: two thermic (hot plate, tail-flick) and two chemical (acetic acid, formalin) models. Male mice were pretreated intraperitoneally (i.p.) with the opioid receptor blocker naloxone (5 mg/kg), the cholinergic antagonist atropine (2 mg/kg), the selective α1 blocker prazosin (1 mg/kg), the dopamine D2 antagonist haloperidol (1.5 mg/kg), or the GABAA receptor antagonist, bicuculline (1 mg/kg) 15 minutes prior to i.p. injection of khat extract (400 mg/kg). Khat extract reduced the nociceptive response of mice in the four pain tests. Naloxone significantly inhibited the antinociceptive effect of khat extract in the hot plate, tail-flick, and the first phase of formalin tests. Bicuculline significantly antagonized the antinociceptive effect of khat extract on the hot plate and tail-flick tests. Haloperidol significantly reversed the antinociceptive effect of khat extract on the tail-flick test and the first phase of formalin test. These results provide strong evidence that the antinociceptive activity of khat extract is mediated via opioidergic, GABAergic, and dopaminergic pathways. The mechanism of the antinociceptive action of khat may be linked to the different types of pain generated in animal models.

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Elham A. Afify

Testosterone Facilitates the Baroreceptor Control of Reflex Bradycardia: Role of Cardiac Sympathetic and Parasympathetic Components

Sex differences in pain and opioid mediated antinociception: Modulatory role of gonadal hormones

Role of carboxyl terminus of μ- and δ-opioid receptor in agonist -induced down-regulation

Cyclosporine Adversely Affects Baroreflexes via Inhibition of Testosterone Modulation of Cardiac Vagal Control

Testosterone depletion contributes to cyclosporine-induced chronic impairment of acetylcholine renovascular relaxations

Effect of Luffa aegyptiaca (seeds) and Carissa edulis (leaves) extracts on blood glucose level of normal and streptozotocin diabetic rats

The involvement of K_ATP channels in morphine‐induced antinociception and hepatic oxidative stress in acute and inflammatory pain in rats

Characterization of the Antinociceptive Mechanisms of Khat Extract (Catha edulis) in Mice

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Elham A. Afify

Testosterone Facilitates the Baroreceptor Control of Reflex Bradycardia: Role of Cardiac Sympathetic and Parasympathetic Components

Sex differences in pain and opioid mediated antinociception: Modulatory role of gonadal hormones

Role of carboxyl terminus of μ- and δ-opioid receptor in agonist -induced down-regulation

Cyclosporine Adversely Affects Baroreflexes via Inhibition of Testosterone Modulation of Cardiac Vagal Control

Testosterone depletion contributes to cyclosporine-induced chronic impairment of acetylcholine renovascular relaxations

Effect of Luffa aegyptiaca (seeds) and Carissa edulis (leaves) extracts on blood glucose level of normal and streptozotocin diabetic rats

The involvement of KATP channels in morphine‐induced antinociception and hepatic oxidative stress in acute and inflammatory pain in rats

Characterization of the Antinociceptive Mechanisms of Khat Extract (Catha edulis) in Mice

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Product

Resources

About

The involvement of K_ATP channels in morphine‐induced antinociception and hepatic oxidative stress in acute and inflammatory pain in rats