A diet enriched with Pistacia atlantica fruits improves the female rats' reproductive system.

Background and aim: Baneh (Pistacia atlantica) is a plant species that is commonly consumed as food and has a long-standing traditional use as a sexual enhancer. Despite its widespread use, a limited amount of academic and scientific literature is available regarding its potential impact on the reproductive system. The present research aimed to study the effect of a diet enriched with Baneh on the female rats' reproductive system. Experimental procedure: Three groups of rats (n = 8) were subjected to the intended diet for six weeks. Subsequently, their histomorphometric parameters, sex hormone levels, as well as the expression of oxytocin (OXT) and oxytocin receptor (OXTR) genes were measured. The rats' serum vitamin D, zinc, and lipid profiles were also evaluated. Results and conclusion: Results revealed that compared to the normal food, the diet containing 20 % Baneh significantly increased the progesterone and estradiol levels three and two times, respectively. It decreased the total body weight while increasing the ratio of ovary weight to the body weight. Furthermore, the Baneh-enriched diet raised HDL, zinc, and vitamin D levels, though it reduced the LDL and TG levels by 15 µg/dl and 24 µg/dl, respectively, and the concentration of ovary malondialdehyde decreased by 50 % in the treated group. Also, the diet increased the follicle graph, corpus luteum, the thickness of the epithelium, the number of endometrial glands, and the expression of both OXT and OXTR genes. Our findings suggested that P. atlantica could considerably improve the female sex hormone levels and their reproductive system.

Protective Effect of Low-Volume High-Intensity Interval Training on Aspirin-Induced Reproductive Impairments in Adult Male Wistar Rats.

Lifestyle factors such as sedentary behavior and consumption of certain medications can disturb the function of the male reproductive system. In the present study, we investigated the potential co-treatment effects of low-volume high-intensity interval training (HIIT) on markers of reproductive function in adult male Wistar rats under aspirin (ASA) treatment. Eighteen adult male Wistar rats were randomized into three groups: control (C), aspirin treatment (AT), and aspirin treatment + exercise (ATE). Animals in the AT and ATE groups received an oral subchronic dose of aspirin (12.5 mg/kg body mass). The exercise was performed three times per week for 6 weeks (4-6 reps of 10-s sprints). Serum testosterone level, sperm parameters (sperm count, viability, maturity, and DNA fragmentation), histomorphometric (Leydig cell, tubule diameter, thickness of tubular epithelium, and indices of spermatogenesis and spermiogenesis), and histochemical parameter (testicular fat density) were assessed. Results revealed that compared to the C group, ASA consumption led to a negative alteration in serum testosterone levels, sperm parameters, and histomorphometric and histochemical parameters (P < 0.05). However, there were no significant differences between the C and ATE groups in terms of serum testosterone level, number of Leydig cells, epididymal fat density, tubule diameter, epithelium height, immature-to-mature sperm ratio, and DNA breakage (P > 0.05). These findings suggest that ASA treatment is associated with deleterious changes in male reproductive parameters. However, low-volume HIIT may prevent ASA-induced male reproductive impairments and could be considered a potential prophylactic measure in subjects under ASA treatment.

Antiplasmodial Effect of Nano Dendrimer G2 Loaded with Chloroquine in Mice Infected with Plasmodium berghei.

BACKGROUND: Malaria is a parasitic lethal disease caused by Plasmodium protozoa. The resistance and drugs' side effects have led to numerous researches for alternative suitable drugs with better efficiency and lower toxicity PURPOSE: In the present study, we investigated in vivo antimalarial effects of G2 linear dendrimer-based nano-chloroquine. METHODS: After the preparation of nano dendrimer G2, chloroquine loading was done. Determine the characterization of particles were specified by DLS, SLS and SEM. The LC-MS and FTIR were used for verifying the nano dendrimer G2 and the loading of chloroquine into the compound. The Solubility N-chloroquine and measurement of drug release rate were done. Antiplasmodial activity of N-chloroquine on BALB/c mice was performed by the microscope and enzymatic methods. At the end, In vivo toxicity of N-chloroquine on tissues was assayed. The RBC morphology and enzyme levels were identified. RESULTS: The results showed the synthesized N-chloroquine had suitable size and solubility. Highest inhibitory effect on Plasmodium parasitic growth was observed at 16 mg/kg dose of N-chloroquine, which eliminated 95% of the parasites (p > 0.05). ED50 is observed at 7.7 mg/kg of N-chloroquine dose. Biochemical findings showed the synthesized N-chloroquine was safer than chloroquine. The N-chloroquine no adverse effects were observed in examined tissues. CONCLUSION: Due to the better effect of the synthesized N-chloroquine on Plasmodium berghei in mice compared to chloroquine, this nanoparticle can be considered as an effective anti-plasmodium compound while more comprehensive research is recommended.

Androgen regulates SARS-CoV-2 receptor levels and is associated with severe COVID-19 symptoms in men

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection has led to a global health crisis, and yet our understanding of the disease pathophysiology and potential treatment options remains limited. SARS-CoV-2 infection occurs through binding and internalization of the viral spike protein to angiotensin converting enzyme 2 (ACE2) on the host cell membrane. Lethal complications are caused by damage and failure of vital organs that express high levels of ACE2, including the lungs, the heart and the kidneys. Here, we established a high-throughput drug screening strategy to identify therapeutic candidates that reduce ACE2 levels in human embryonic stem cell (hESC) derived cardiac cells. Drug target analysis of validated hit compounds, including 5 alpha reductase inhibitors, revealed androgen signaling as a key modulator of ACE2 levels. Treatment with the 5 alpha reductase inhibitor dutasteride reduced ACE2 levels and internalization of recombinant spike receptor binding domain (Spike-RBD) in hESC-derived cardiac cells and human alveolar epithelial cells. Finally, clinical data on coronavirus disease 2019 (COVID-19) patients demonstrated that abnormal androgen states are significantly associated with severe disease complications and cardiac injury as measured by blood troponin T levels. These findings provide important insights on the mechanism of increased disease susceptibility in male COVID-19 patients and identify androgen receptor inhibition as a potential therapeutic strategy.

Effect of prenatal stress on density of NMDA receptors in rat brain.

N-methyl-D-aspartate (NMDA) receptors are important excitatory receptors which contribute to many brain functions. Altered NMDA receptor levels cause maldevelopment of corticostriatal and corticolimbic pathways, which is a neurobiological predisposing factor for development of epilepsy, schizophrenia and other idiopathic psychotic disorders. It was hypothesized that prenatal stress could play a role in pathophysiology of these disorders by affecting expression of the receptors through releasing corticosterone. Sixty-eight virgin female Wistar rats were selected and mated with male rats with the same genotype. Then, the pregnant rats were subjected to restraint or predator stress on 15th, 16th and 17th gestation days. Prenatal stress consisted of restraint or predator stresses of the dams under normal room conditions. After parturition, the pups were studied in terms of density of NMDA receptors in brain at different time points. Meanwhile, blood sample was obtained and corticosterone blood level (CBL) was measured. The pups were then compared with the pups born to unstressed dams. Stress induced significant rise in CBL and NMDA receptors in brain of the offspring. CBL was significantly higher among the stressed rats compared to the control ones; there was significant difference between the two stresses and between the two sexes. The male pups were affected more severely. Stressful events during gestation had important effects on NMDA receptors of the offspring. It can be concluded that stress-induced elevation of NMDA receptors and corticosterone might mediate altered susceptibility to epilepsy and decrease ability of learning and memory and other stress-induced neurologic disorders.