Ly on affecting change in fat mass may show a larger effect. Further studies are needed to provide a better understanding of the interplay between adiposity and cognitive function. Future studies may consider evaluating the effect of potential Autophagy mediators that may lie in the causal pathway between adiposity and change in cognition. While prior studies have found that inflammatory factors are independently inhibitor associated with cognitive decline [54], it is unclear how adipocytokines and metabolic variables affect cognitive function and whether they explain the effect of adiposity on cognitive 25033180 function. Furthermore, visceral and subcutaneous fat tissue may differ in their production of various adipocytokines, such as adiponectin and leptin [55]. As such, it may be necessary to measure visceral and subcutaneous fat separately. In addition,other biochemical measures such as sex hormones may also help explain why men and women experience different outcomes in response to weight loss. In conclusion, change in sub-total body fat mass ?not change in lean mass ?is independently associated with executive functions. This further emphasizes the potential value of targeted exercise training in combating cognitive decline [2,56].AcknowledgmentsWe thank the Vancouver South Slope YMCA management and members who supported the study by allowing access to participants for the training intervention. Lindsay Katarynych, BSc, coordinated this study. We thank the instructors for their commitment to the participants’ wellbeing and safety. TLA is a Canada Research Chair in Physical Activity, Mobility, and Cognitive Neuroscience and a MSFHR Scholar. JCD is a CIHR and MSFHR postdoctoral fellow. LSN is a NSERC and MSFHR PhD trainee.Author ContributionsConceived and designed the experiments: TLA. Performed the experiments: JCD DS AC LSN TLA. Analyzed the data: ED JCD TLA. Wrote the paper: ED JCD DS AC LSN TLA.Fat Mass Contributes to Executive Functions
Alterations of the sodium current (INa) in the human heart can lead to diseases responsible for cardiac arrhythmias, such as Brugada Syndrome (BrS) [1]. This syndrome, first described in 1992, is characterized by the presence of ST segment elevation in the right precordial leads (V1 3) of the electrocardiogram (ECG), without major structural alterations in the heart [2]. The prevalence 23727046 of BrS is in the range of 1? in every 10,000 individuals and is an important cause of Sudden Cardiac Death (SCD) [3]. Since the discovery of the first genetic variation in the cardiac sodium channel gene, SCN5A, associated with BrS [4], many studies have classified this syndrome as a genetic disease with autosomal dominant inheritance and incomplete penetrance [5]. It has been demonstrated that mutations in SCN5A associated with BrS result in loss-of-function of the current carried by the cardiac type sodium channel (Nav1.5) [6]. Different mechanisms are known to produce channel loss-of-function, including reduced expression of the channel in the plasma membrane, changes in the voltage dependence of the channel activation or inactivation, or altered channel kinetics [7]. In addition, mutations in genes otherthan SCN5A have been identified in a low proportion of BrS patients [8]. The Nav1.5 protein, with 2016 amino acids and a molecular weight of 227 kDa, consists of four homologous domains (DI-DIV) [9]. Each domain contains six transmembrane segments (S1 6) linked by intracellular and extracellular loops. S4 segments contain 5 positively charg.Ly on affecting change in fat mass may show a larger effect. Further studies are needed to provide a better understanding of the interplay between adiposity and cognitive function. Future studies may consider evaluating the effect of potential mediators that may lie in the causal pathway between adiposity and change in cognition. While prior studies have found that inflammatory factors are independently associated with cognitive decline [54], it is unclear how adipocytokines and metabolic variables affect cognitive function and whether they explain the effect of adiposity on cognitive 25033180 function. Furthermore, visceral and subcutaneous fat tissue may differ in their production of various adipocytokines, such as adiponectin and leptin [55]. As such, it may be necessary to measure visceral and subcutaneous fat separately. In addition,other biochemical measures such as sex hormones may also help explain why men and women experience different outcomes in response to weight loss. In conclusion, change in sub-total body fat mass ?not change in lean mass ?is independently associated with executive functions. This further emphasizes the potential value of targeted exercise training in combating cognitive decline [2,56].AcknowledgmentsWe thank the Vancouver South Slope YMCA management and members who supported the study by allowing access to participants for the training intervention. Lindsay Katarynych, BSc, coordinated this study. We thank the instructors for their commitment to the participants’ wellbeing and safety. TLA is a Canada Research Chair in Physical Activity, Mobility, and Cognitive Neuroscience and a MSFHR Scholar. JCD is a CIHR and MSFHR postdoctoral fellow. LSN is a NSERC and MSFHR PhD trainee.Author ContributionsConceived and designed the experiments: TLA. Performed the experiments: JCD DS AC LSN TLA. Analyzed the data: ED JCD TLA. Wrote the paper: ED JCD DS AC LSN TLA.Fat Mass Contributes to Executive Functions
Alterations of the sodium current (INa) in the human heart can lead to diseases responsible for cardiac arrhythmias, such as Brugada Syndrome (BrS) [1]. This syndrome, first described in 1992, is characterized by the presence of ST segment elevation in the right precordial leads (V1 3) of the electrocardiogram (ECG), without major structural alterations in the heart [2]. The prevalence 23727046 of BrS is in the range of 1? in every 10,000 individuals and is an important cause of Sudden Cardiac Death (SCD) [3]. Since the discovery of the first genetic variation in the cardiac sodium channel gene, SCN5A, associated with BrS [4], many studies have classified this syndrome as a genetic disease with autosomal dominant inheritance and incomplete penetrance [5]. It has been demonstrated that mutations in SCN5A associated with BrS result in loss-of-function of the current carried by the cardiac type sodium channel (Nav1.5) [6]. Different mechanisms are known to produce channel loss-of-function, including reduced expression of the channel in the plasma membrane, changes in the voltage dependence of the channel activation or inactivation, or altered channel kinetics [7]. In addition, mutations in genes otherthan SCN5A have been identified in a low proportion of BrS patients [8]. The Nav1.5 protein, with 2016 amino acids and a molecular weight of 227 kDa, consists of four homologous domains (DI-DIV) [9]. Each domain contains six transmembrane segments (S1 6) linked by intracellular and extracellular loops. S4 segments contain 5 positively charg.
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