Neuronal E93 is required for adaptation to adult metabolism and behavior.

OBJECTIVE: Metamorphosis is a transition from growth to reproduction, through which an animal adopts adult behavior and metabolism. Yet the neural mechanisms underlying the switch are unclear. Here we report that neuronal E93, a transcription factor essential for metamorphosis, regulates the adult metabolism, physiology, and behavior in Drosophila melanogaster. METHODS: To find new neuronal regulators of metabolism, we performed a targeted RNAi-based screen of 70 Drosophila orthologs of the mammalian genes enriched in ventromedial hypothalamus (VMH). Once E93 was identified from the screen, we characterized changes in physiology and behavior when neuronal expression of E93 is knocked down. To identify the neurons where E93 acts, we performed an additional screen targeting subsets of neurons or endocrine cells. RESULTS: E93 is required to control appetite, metabolism, exercise endurance, and circadian rhythms. The diverse phenotypes caused by pan-neuronal knockdown of E93, including obesity, exercise intolerance and circadian disruption, can all be phenocopied by knockdown of E93 specifically in either GABA or MIP neurons, suggesting these neurons are key sites of E93 action. Knockdown of the Ecdysone Receptor specifically in MIP neurons partially phenocopies the MIP neuron-specific knockdown of E93, suggesting the steroid signal coordinates adult metabolism via E93 and a neuropeptidergic signal. Finally, E93 expression in GABA and MIP neurons also serves as a key switch for the adaptation to adult behavior, as animals with reduced expression of E93 in the two subsets of neurons exhibit reduced reproductive activity. CONCLUSIONS: Our study reveals that E93 is a new monogenic factor essential for metabolic, physiological, and behavioral adaptation from larval behavior to adult behavior.

Octopamine Rescues Endurance and Climbing Speed in Drosophila Clkout Mutants with Circadian Rhythm Disruption.

Circadian rhythm disturbances are associated with various negative health outcomes, including an increasing incidence of chronic diseases with high societal costs. While exercise can protect against the negative effects of rhythm disruption, it is not available to all those impacted by sleep disruptions, in part because sleep disruption itself reduces exercise capacity. Thus, there is a need for therapeutics that bring the benefits of exercise to this population. Here, we investigate the relationship between exercise and circadian disturbances using a well-established Drosophila model of circadian rhythm loss, the Clkout mutant. We find that Clkout causes reduced exercise capacity, measured as post-training endurance, flight performance, and climbing speed, and these phenotypes are not rescued by chronic exercise training. However, exogenous administration of a molecule known to mediate the effects of chronic exercise, octopamine (OA), was able to effectively rescue mutant exercise performance, including the upregulation of other known exercise-mediating transcripts, without restoring the circadian rhythms of mutants. This work points the way toward the discovery of novel therapeutics that can restore exercise capacity in patients with rhythm disruption.

Iditarod, a Drosophila homolog of the Irisin precursor FNDC5, is critical for exercise performance and cardiac autophagy.

Mammalian FNDC5 encodes a protein precursor of Irisin, which is important for exercise-dependent regulation of whole-body metabolism. In a genetic screen in Drosophila, we identified Iditarod (Idit), which shows substantial protein homology to mouse and human FNDC5, as a regulator of autophagy acting downstream of Atg1/Atg13. Physiologically, Idit-deficient flies showed reduced exercise performance and defective cold resistance, which were rescued by exogenous expression of Idit. Exercise training increased endurance in wild-type flies, but not in Idit-deficient flies. Conversely, Idit is induced upon exercise training, and transgenic expression of Idit in wild-type flies increased endurance to the level of exercise trained flies. Finally, Idit deficiency prevented both exercise-induced increase in cardiac Atg8 and exercise-induced cardiac stress resistance, suggesting that cardiac autophagy may be an additional mechanism by which Idit is involved in the adaptive response to exercise. Our work suggests an ancient role of an Iditarod/Irisin/FNDC5 family of proteins in autophagy, exercise physiology, and cold adaptation, conserved throughout metazoan species.

Assessment of Prescribing Practices and Factors Related to Antibiotic Prescribing in Community Pharmacies.

Background and Objectives: Overprescribing of antibiotics is one of the important contributors of antimicrobial resistance globally. A high proportion of antibiotics prescribed in community settings are unnecessary or inappropriate. This study assesses the prescribing practices and factors related to antibiotic prescribing in community pharmacies in United Arab Emirates (UAE). Materials and Methods: A cross-sectional study utilizing a quantitative approach was carried out in the community pharmacies of Ras Al Khaimah (RAK), UAE. Six hundred and thirty prescription encounters from 21 randomly selected community pharmacies were investigated using World Health Organization (WHO) core prescribing indicators. Factors related to antibiotic prescribing were identified using logistic regression analyses. Results: In 630 prescription encounters, a total of 1814 drugs were prescribed. Out of these, the most commonly prescribed drug class was antibiotics (43.8% prescriptions) and the antibiotic was amoxicillin/clavulanic-acid (22.4%). The average number of drugs per prescription was 2.88, which was higher than the WHO recommended value of 1.6-1.8. In addition, more than half of the prescriptions (58.6%) had drugs by generic names and the majority of the drugs prescribed (83.8%) were from the essential drug list, which were lower than the optimal values of 100%. The majority of the antibiotics prescribed in the study were from the WHO's Access group antibiotics. Multivariable logistic regression analysis identified patient age (children-OR: 7.40, 95% CI: 2.32-23.62, p = 0.001 and adolescent-OR: 5.86, 95% CI: 1.57-21.86, p = 0.008), prescriber qualification as general practitioner (OR: 1.84, 95% CI:1.30-2.60, p = 0.001), and number of drugs per prescription (OR: 3.51, 95% CI: 1.98-6.21, p < 0.001) as independent factors associated with antibiotic prescribing. Conclusions: This study reveals considerable variations from the WHO recommendations for the different prescribing indicators in the community pharmacies of RAK, UAE. In addition, the study reports overprescribing of antibiotics in the community setting, indicating the need for interventions to promote rational use of antibiotics in a community setting.

Effectiveness of preoperative stretchings on postoperative shoulder function in patients undergoing mastectomy.

Objective: To analyse the effects of pre-operative stretchings of shoulder muscles on post-operative shoulder function in patients undergoing mastectomy. METHODS: The comparative study was conducted from January to May 2019 at Allied Hospital, Madinah Teaching Hospital and the District Headquarter Hospital, Faisalabad, Pakistan, and comprised mastectomy patients. The subjects were randomised to treatment and control groups. The treatment group received static stretching with range of motion, while the control group received routine post-operative care. Data was collected using Numeric Pain Rating Scale, Universal goniometer and Groningen Activity Restriction Scale at post-op day 1 and day 3. Data was analysed using SPSS 20. RESULTS: Of the 30- patients, there were 15(50%) in each of the two groups. The overall mean age was 46±10.75 years. The treatment group showed significant difference (p<0.05) in pain, range of motion and Groningen Activity Restriction Scale scores for activities of daily living compared to the control group. The treatment group also showed better results in terms of shoulder flexion and abduction range of motion (p<0.05), but showed non-significant difference (p>0.05) in external rotation and Groningen Activity Restriction Scale scores. Conclusion: Pre-operative stretching of shoulder muscles proved to be safe and effective in reducing post-operative pain and functional restriction in patients undergoing mastectomy.

Effect of virtual reality-simulated exercise on sympathovagal balance.

Discovery of therapeutic avenues to provide the benefits of exercise to patients with enforced sedentary behavior patterns would be of transformative importance to health care. Work in model organisms has demonstrated that benefits of exercise can be provided to stationary animals by daily intermittent stimulation of adrenergic signaling. Here, we examine as a proof of principle whether exposure of human participants to virtual reality (VR) simulation of exercise can alter sympathovagal balance in stationary humans. In this study, 24 participants performed 15 minutes of cycling exercise at standardized resistance, then repeated the exercise with a virtual reality helmet that provided an immersive environment. On a separate day, they each controlled a virtual environment for 15 minutes to simulate exercise without actual cycling exercise. Response to each treatment was assessed by measuring heart rate (HR), norepinephrine, and heart rate variability, and each participant's response to virtual exercise was compared internally to his/her response to the actual cycling. We found that neither post-exercise norepinephrine nor post-exercise HR was significantly increased by VR simulation. However, heart rate variability measured during virtual exercise was comparable to actual cycling in participants that engaged in moderate exercise, but not in those that engaged in high-intensity exercise. These findings suggest that virtual exercise has the potential to mimic some effects of moderate exercise. Further work will be needed to examine the longitudinal effects of chronic exposure to VR-simulated exercise.

Mito-nuclear interactions modify Drosophila exercise performance.

Endurance exercise has received increasing attention as a broadly preventative measure against age-related disease and dysfunction. Improvement of mitochondrial quality by enhancement of mitochondrial turnover is thought to be among the important molecular mechanisms underpinning the benefits of exercise. Interactions between the mitochondrial and nuclear genomes are important components of the genetic basis for variation in longevity, fitness and the incidence of disease. Here, we examine the effects of replacing the mitochondrial genome (mtDNA) of several Drosophila strains with mtDNA from other strains, or from closely related species, on exercise performance. We find that mitochondria from flies selected for longevity increase the performance of flies from a parental strain. We also find evidence that mitochondria from other strains or species alter exercise performance, with examples of both beneficial and deleterious effects. These findings suggest that both the mitochondrial and nuclear genomes, as well as interactions between the two, contribute significantly to exercise capacity.