TY  - JOUR
A1  - Klaus, Susanne
A1  - Ost, Mario
T1  - Mitochondrial uncoupling and longevity
BT  - a role for mitokines?
JF  - Experimental gerontology
N2  - Aging has been viewed both as a random process due to accumulation of molecular and cellular damage over time and as a programmed process linked to cellular pathway important for growth and maturation. These views converge on mitochondria as both the major producer of damaging reactive oxidant species (ROS) and as signaling organelles. A finite proton leak across the inner mitochondrial membrane leading to a slight uncoupling of oxidative phosphorylation and respiration is an intrinsic property of all mitochondria and according to the "uncoupling to survive" hypothesis it has evolved to protect against ROS production to minimize oxidative damage. This hypothesis is supported by evidence linking an increased endogenous, uncoupling protein (UCP1) mediated, as well as experimentally induced mitochondrial uncoupling to an increased lifespan in rodents. This is possibly due to the synergistic activation of molecular pathways linked to life extending effects of caloric restriction as well as a mitohormetic response. Mitohormesis is an adaptive stress response through mitonuclear signaling which increases stress resistance resulting in health promoting effects. Part of this response is the induction of fibroblast growth factor 21 (FGF21) and growth and differentiation factor 15 (GDF15), two stress-induced mitokines which elicit beneficial systemic metabolic effects via endocrine action.
KW  - Uncoupling proteins
KW  - Energy metabolism
KW  - Skeletal muscle
KW  - Mitohormesis
KW  - GDF15
KW  - FGF21
Y1  - 2019
U6  - https://doi.org/10.1016/j.exger.2019.110796
SN  - 0531-5565
SN  - 1873-6815
VL  - 130
PB  - Elsevier Science
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Paslakis, Georgios
A1  - Buchmann, Arlette F.
A1  - Westphal, Sabine
A1  - Banaschewski, Tobias
A1  - Hohm, Erika
A1  - Zimmermann, Ulrich S.
A1  - Laucht, Manfred
A1  - Deuschle, Michael
T1  - Intrauterine exposure to cigarette smoke is associated with increased ghrelin concentrations in adulthood
JF  - Neuroendocrinology : international journal for basic and clinical studies on neuroendocrine relationships
N2  - Background: The appetite-stimulating hormone ghrelin is a fundamental regulator of human energy metabolism. A series of studies support the notion that long-term appetite and weight regulation may be already programmed in early life and it could be demonstrated that the intrauterine environment affects the ghrelin system of the offspring. Animal studies have also shown that intrauterine programming of orexigenic systems persists even until adolescence/adulthood. Methods: We hypothesized that plasma ghrelin concentrations in adulthood may be associated with the intrauterine exposure to cigarette smoke. We examined this hypothesis in a sample of 19-year-olds followed up since birth in the framework of the Mannheim Study of Children at Risk, an ongoing epidemiological cohort study of the long-term outcome of early risk factors. Results: As a main finding, we found that ghrelin plasma concentrations in young adults who had been exposed to cigarette smoke in utero were significantly higher than in those without prenatal smoke exposure. Moreover, individuals with intrauterine nicotine exposure showed a significantly higher prevalence of own smoking habits and lower educational status compared to those in the group without exposure. Conclusion: Smoking during pregnancy may be considered as an adverse intrauterine influence that may alter the endocrine-metabolic status of the offspring even until early adulthood.
KW  - Cigarette smoke
KW  - Depression
KW  - Energy metabolism
KW  - Epigenetics
KW  - Ghrelin
KW  - Intrauterine exposure
KW  - Nicotine
Y1  - 2014
U6  - https://doi.org/10.1159/000363325
SN  - 0028-3835
SN  - 1423-0194
VL  - 99
IS  - 2
SP  - 123
EP  - 129
PB  - Karger
CY  - Basel
ER  - 
TY  - JOUR
A1  - Stadion, Mandy
A1  - Schürmann, Annette
T1  - Intermittierendes Fasten
BT  - was gibt es Neues aus der Wissenschaft?
BT  - what’s new from science?
JF  - Der Diabetologe
N2  - Obesity increases the risk of metabolic disorders and can lead to type 2 diabetes. Therefore, the treatment and prevention of obesity represent important medical challenges. Increased physical activity and a reduction in daily caloric intake of 25-30% are often recommended. Another possibility is intermittent fasting, by limiting dietary caloric content over certain times, i.e. one or more days a week or for more than 14 h a day. Animal and human studies provide evidence that intermittent fasting in obesity leads to a reduction in body fat mass as well as to improvements of metabolic parameters and insulin sensitivity. These positive effects are mediated not only by the decrease in body mass, but also by the activation of metabolic pathways and cellular processes that are specific for fasting conditions. In this article, we describe the current knowledge about the mechanisms induced by intermittent fasting and present results from randomized controlled human trials.
N2  - Übergewicht und Adipositas erhöhen die Risiken für Stoffwechselstörungen und können zu einem Typ-2-Diabetes führen. Deshalb stellen die Behandlung und Prävention von Fettleibigkeit eine große medizinische Herausforderung dar. Häufig werden eine erhöhte körperliche Aktivität und die Reduktion der täglichen Kalorienaufnahme um 25–30 % angeraten. Eine andere Möglichkeit bietet intermittierendes Fasten, also eine Kalorieneinschränkung über bestimmte Zeiten, d. h. an einem oder mehreren Tagen pro Woche oder über mehr als 14 h pro Tag. Tier- und Humanstudien lieferten Hinweise darauf, dass intermittierendes Fasten bei Adipositas zu einer Verringerung der Körperfettmasse sowie zu Verbesserungen der Stoffwechselparameter und der Insulinsensitivität führt. Diese positiven Effekte werden nicht nur allein durch die Abnahme der Körpermasse, sondern auch durch die Aktivierung von Stoffwechselwegen und zellulären Prozessen ausgelöst, die für Fastenbedingungen spezifisch sind. In diesem Artikel beschreiben wir die derzeit bekannten Mechanismen, die durch intermittierendes Fasten induziert werden, und stellen Ergebnisse aus randomisierten kontrollierten Studien am Menschen vor.
T2  - Intermittent fasting
KW  - Glucose metabolism disorders
KW  - Lipid metabolism
KW  - Insulin sensitivity
KW  - Energy metabolism
KW  - Circadian rhythm
KW  - Glukosestoffwechselstörungen
KW  - Fettstoffwechsel
KW  - Insulinsensitivität
KW  - Energiestoffwechsel
KW  - Zirkadianer Rhythmus
Y1  - 2020
U6  - https://doi.org/10.1007/s11428-020-00666-z
SN  - 1860-9716
SN  - 1860-9724
VL  - 16
IS  - 7
SP  - 641
EP  - 646
PB  - Springer Medizin
CY  - Berlin
ER  -