Tehran University Medical Journal

Background: Skeletal muscle mass, which is regulated by a balance between muscle protein synthesis and degradation, is an important factor for movement to meet everyday needs, especially in pathological conditions and aging. The purpose of the present investigation was to compare the alterations of the gene expression involved in muscle protein synthesis and degradation signaling pathways induced by two exercise training protocols.
Methods: Eight weeks old Wistar rats have been assigned to the present experimental study, which was conducted from August 2018 to October 2018 at the animal laboratory of Tehran University. They were randomly divided into two resistance and endurance training groups and one control group, and run on a treadmill, 5 sessions per week for 8 weeks. 48 hours after the last exercise session, the rats in the two groups were anesthetized, and the dissected soleus muscles from euthanized animals were stored at -80° for RT-PCR and Western blot analysis later. Between-group differences were analyzed by the parametric and non-parametric tests for normally and non-normally distributed data respectively, at the significance level of α˂0.05.
Results: Compared with the control group, mTORC1 gene expression was increased significantly just in the endurance group (P=0.022), whereas both endurance and resistance exercise protocols caused a significant increase in Rps6kb1 (P˂0.001 and P=0.001 respectively). In protein degradation pathway, although, FOXO3a did not alter significantly (P=0.463), eIF4Ebp1 gene expression was inhibited by both endurance and resistance exercise training protocols (P˂0.001 and P=0.001 respectively). The alterations of Rps6kb1 and FOXO3a gene expression were confirmed by Western blot analysis.
Conclusion: The results showed that the exercise training protocols of the present study had approximately similar effects on alterations of gene expression involved in skeletal muscle protein synthesis and degradation pathways. Therefore, application of the protocols may be considered to prevent or reduce the muscle atrophy in pathological conditions such as motor neuron disease, aging, and/or muscle strength improvement in athletes.

Background: Most studies show that 9 to 24% of people who are in in vitro fertilization (IVF) cycles are women who respond poorly to ovarian stimulation. Women with poor ovarian response (POR) are a group of infertile patients whose ovarian reserve, ovarian response to medication, and the quality of ovum are declining. Therefore, the number of female cycles, the number of fetuses from the oocyte and the rate of pregnancy in these women is reduced. The purpose of this study was to investigate the expression of three adrenoceptor receptor genes in the cumulus cells of women with poor ovarian response in culture medium.
Methods: This case-control study was conducted in two groups: study (POR) and control (oocyte donor's women) groups. POR diagnosis was performed by ESHRE Bologna criteria. After puncture of the follicles, cumulus-oocyte complex was collected and the cumulus cells (CCs) were isolated by enzyme and are counted with Neobar lamella and then were added in the culture medium. After completing the culture, RNA was extracted from cumulus cells and the RNA concentration was read by the Spectrophotometer (NanoDrop Technologies, Wilmington, DE, USA). Then cDNA synthesized and primers designed for ADR-α1, 2 and ADR-B2 or gene expression by real-time polymerase chain reaction (PCR) technique. The research was done in Reproductive Health Research Center of Imam Khomeini Hospital, Tehran University of Medical Sciences, Tehran, Iran, from April to December 2017.
Results: Comparison of the results of ADR-α1, 2 gene expressions in cumulus cells showed a significant decrease, but ADR-B2 was not significant in two groups. Correlation coefficients also showed that there are relationship between three adrenoceptors and their effects on each other.
Conclusion: Our results showed that the decreased expressions of ADR-α1, 2 probably related to activation of the sympathetic system and release of the more neurotransmitter that lead to down-regulation of ADR-α1, 2 in the cell membrane of cumulus in culture medium.

Background: Connexon is a membrane structural protein in the gap junctions. These cellular connections are responsible for transporting ions and messenger molecules to the oocyte. This study aimed to investigate the role of beta-2-adrenoceptors in the process of follicle growth based on the expression of the two connexins 37/43 in the gap junctions that have a primary role in the mitotic resumption and oocyte maturation.
Methods: This case-control study was conducted from April 2019 to November 2020 at the Reproductive Health Research Center of Tehran Imam Khomeini Hospital was performed on women with the poor ovarian response (POR) and control (women donate eggs) groups. Both groups had entry criteria with a body mass index under 28 m²/kg and 20-45 years old. Exit criteria were including no drug use except ovarian stimulants and no illness. The diagnosis was made agreeing to the Bologna model criterion. Ovulation stimulation cycle was performed, and then after the puncture, cumulus cells were isolated by enzyme and were freezing in -80 centigrade until the time of inserting into the cell culture medium. Isoproterenol (agonist) and propranolol (antagonist) at a concentration of 100 nM were added to the culture medium as the beta-2 adrenoceptors selective drugs. After culture, RNA extraction was performed and the concentration was read by Nanodrop, and then cDNA was synthesized. Gene expression was determined by real-time PCR.