High Cardiorespiratory Fitness Protects against Molecular Impairments of Metabolism, Heart, and Brain with Higher Efficacy in Obesity-Induced Premature Aging.

BACKGRUOUND: High cardiorespiratory fitness (CRF) protects against age-related diseases. However, the mechanisms mediating the protective effect of high intrinsic CRF against metabolic, cardiac, and brain impairments in non-obese versus obese conditions remain incompletely understood. We aimed to identify the mechanisms through which high intrinsic CRF protects against metabolic, cardiac, and brain impairments in non-obese versus obese untrained rats. METHODS: Seven-week-old male Wistar rats were divided into two groups (n=8 per group) to receive either a normal diet or a highfat diet (HFD). At weeks 12 and 28, CRF, carbohydrate and fatty acid oxidation, cardiac function, and metabolic parameters were evaluated. At week 28, behavior tests were performed. At the end of week 28, rats were euthanized to collect heart and brain samples for molecular studies. RESULTS: The obese rats exhibited higher values for aging-related parameters than the non-obese rats, indicating that they experienced obesity-induced premature aging. High baseline CRF levels were positively correlated with several favorable metabolic, cardiac, and brain parameters at follow-up. Specifically, the protective effects of high CRF against metabolic, cardiac, and brain impairments were mediated by the modulation of body weight and composition, the lipid profile, substrate oxidation, mitochondrial function, insulin signaling, autophagy, apoptosis, inflammation, oxidative stress, cardiac function, neurogenesis, blood-brain barrier, synaptic function, accumulation of Alzheimer's disease-related proteins, and cognition. Interestingly, this effect was more obvious in HFD-fed rats. CONCLUSION: The protective effect of high CRF is mediated by the modulation of several mechanisms. These effects exhibit greater efficacy under conditions of obesity-induced premature aging.

Cardiovascular health is associated with the epigenetic clock in the Berlin Aging Study II (BASE-II).

The epigenetic clock parameter DNAm age acceleration is a promising biomarker of aging. We have recently described an epigenetic clock based on only seven cytosine-phosphate-guanine sites, which is highly associated with chronological age. The aim of this study was to examine this epigenetic clock with respect to its relationship with cardiovascular health (CVH) in older adults. We used data from the Berlin Aging Study II (BASE-II; 1,671 participants; 68.8 ± 3.7 years old). CVH was operationalized using two different CVH scores, the Framingham Risk Score (FRS), and the Life's simple 7 (LS7). To adjust for potential confounding, e.g. by sex, we performed regression analyses. The LS7 score was higher, i.e. more favorable, in woman than in men (8.8 ± 2 vs. 8.2 ± 2, p < 0.001). DNAm age acceleration was associated with the FRS (ß = 0.122, p = 0.028) and with the LS7 (ß = -0.804, p = 0.032). In more detail, physical activity (ß = -0.461, p = 0.05), HDL-cholesterol (ß = 0.343, p = 0.03) and total cholesterol (ß = -0.364, p = 0.002) were associated with epigenetic age acceleration. We present evidence suggesting that better CVH is associated with decelerated biological aging measured by the epigenetic clock.

The potential of Senolytics in transplantation.

Older organs provide a substantial unrealized potential with the capacity to close the gap between demand and supply in organ transplantation. The potential of senolytics in improving age-related conditions has been shown in various experimental studies and early clinical trials. Those encouraging data may also be of relevance for transplantation. As age-differences between donor and recipients are not uncommon, aging may be accelerated in recipients when transplanting older organs; young organs may, at least in theory, have the potential to 'rejuvenate' old recipients. Here, we review the relevance of senescent cells and the effects of senolytics on organ quality, alloimmune responses and outcomes in solid organ transplantation. This article is part of the Special Issue - Senolytics - Edited by Joao Passos and Diana Jurk.

The emerging role of Cockayne group A and B proteins in ubiquitin/proteasome-directed protein degradation.

When mutated, csa and csb genes are responsible of the complex phenotype of the premature aging Cockayne Syndrome (CS). Our working hypothesis is to reconcile the multiple cellular and molecular phenotypes associated to CS within the unifying molecular function of CSA and CSB proteins in the cascade of events leading to ubiquitin/proteasome-directed protein degradation, which occurs in processes as DNA repair, transcription and cell division. This achievement may reasonably explain the plethora of cellular UPS-regulated functions that result impaired when either CSA or CSB are mutated and suggestively explains part of their pleiotropic effect. This review is aimed to solicit the interest of the scientific community in further investigating this aspect, since we believe that the identification of the ubiquitin-proteasome machinery as a new potential therapeutic target, able to comprehensively face the different molecular aspects of CS, whether confirmed and corroborated by in vivo studies, would open a promising avenue to design effective therapeutic intervention.

[Benefits of androgen replacement therapy and audio-visual correction inclusion in the prevention of premature aging.]

There are changes in the metabolism, reproductive and nervous systems with ageing, which have a systemic and interrelated nature. The purpose of this work was to demonstrate the effectiveness of audiovisual correction and therapy with testosterone drugs in addition to the standard therapy in patients with polymorbid pathology. 89 men aged 35-55 years old with diabetes mellitus, polymorbid cardiovascular disease, obesity, anxiety and depressive disorders were examined. They were divided into 3 groups depending on the treatment: the 1st - standard therapy and escitalopram / tofisopam; the 2nd - standard therapy + audiovisual correction; the 3rd - standard therapy + audiovisual correction + testosterone undecanoate. Laboratory examination was carried out in all patients before the start of treatment and 9 months after the treatment. The severity of androgen deficiency was determined using IIEF-5 questionnaire and the AMS male aging scale. In was shown a decrease in testosterone levels, signs of erectile dysfunction and symptoms of moderate to severe androgen deficiency, increased proatherogenic and decreased antiatherogenic lipoproteins, increased glucose, glycated hemoglobin, insulin, HOMA index in our study. In group of audiovisual correction we saw a more significant improvement in the lipid profile after treatment. Audiovisual correction and androgen therapy contributed to the improvement of erectile function indices and a decrease in the severity of the symptoms of ageing in men.

T cells with dysfunctional mitochondria induce multimorbidity and premature senescence.

The effect of immunometabolism on age-associated diseases remains uncertain. In this work, we show that T cells with dysfunctional mitochondria owing to mitochondrial transcription factor A (TFAM) deficiency act as accelerators of senescence. In mice, these cells instigate multiple aging-related features, including metabolic, cognitive, physical, and cardiovascular alterations, which together result in premature death. T cell metabolic failure induces the accumulation of circulating cytokines, which resembles the chronic inflammation that is characteristic of aging ("inflammaging"). This cytokine storm itself acts as a systemic inducer of senescence. Blocking tumor necrosis factor-α signaling or preventing senescence with nicotinamide adenine dinucleotide precursors partially rescues premature aging in mice with Tfam-deficient T cells. Thus, T cells can regulate organismal fitness and life span, which highlights the importance of tight immunometabolic control in both aging and the onset of age-associated diseases.

Voluntary wheel running has no impact on brain and liver mitochondrial DNA copy number or mutation measures in the PolG mouse model of aging.

The mitochondrial theory of aging attributes much of the aging process to mitochondrial DNA damage. The polymerase gamma (PolG) mutant mouse was designed to evaluate this theory and thus carries a mutated proofreading region of polymerase gamma (D257A) that exclusively transcribes the mitochondrial genome. As a result, PolGD257A mice accumulate mitochondrial DNA (mtDNA) mutations that lead to premature aging, as evidenced by hair loss, weight loss, kyphosis, increased rates of apoptosis, organ damage, and an early death, occurring around 12 months of age. Research has shown that exercise decreases skeletal muscle mtDNA mutations and normalizes protein levels in PolG mice. However, brain mtDNA changes with exercise in PolG mice have not been studied. We found no effects of exercise on mtDNA mutations or copy number in either the brain or liver of PolG mice, despite changes to body mass. Our results suggest that mitochondrial mutations play little role in exercise-brain interactions in the PolG model of accelerated aging. In addition to evaluating the effect of exercise on mtDNA outcomes, we also implemented novel methods for both extracting mtDNA and measuring mtDNA mutations, with aims for improving the efficiency and accuracy of these methods.

The Psilocybin-Telomere Hypothesis: An empirically falsifiable prediction concerning the beneficial neuropsychopharmacological effects of psilocybin on genetic aging.

We introduce a novel hypothesis which states that the therapeutic utilisation of psilocybin has beneficial effects on genetic aging. Ex hypothesi, we predict a priori that controlled psilocybin interventions exert quantifiable positive impact on leucocyte telomere length (telomeres are a robust predictor of mortality and multifarious aging-related diseases). Our hypothesising follows the Popperian logic of scientific discovery, viz., bold (and refutable) conjectures form the very foundation of scientific progress. The 'psilocybin-telomere hypothesis' is formalised as a logically valid deductive (syllogistic) argument and we provide substantial evidence to support the underlying premises. Impetus for our theorising derives from a plurality of converging empirical sources indicating that psilocybin has persistent beneficial effects on various aspects of mental health (e.g., in the context of depression, anxiety, PTSD, OCD, addiction, etc.). Additional support is based on a large corpus of studies that establish reliable correlations between mental health and telomere attrition (improved mental health is generally correlated with longer telomeres). Another pertinent component of our argument is based on recent studies which demonstrate that "meditative states of consciousness" provide beneficial effects on genetic aging. Similarly, psilocybin can induce states of consciousness that are neurophysiologically and phenomenologically significantly congruent with meditative states. Furthermore, prior research has demonstrated that a single dose of psilocybin can occasion life-changing transformative experiences (≈ 70% of healthy volunteers rate their experience with psilocybin amongst the five personally most meaningful lifetime events, viz., ranked next to giving birth to a child or losing a loved one). We postulate that these profound psychological events leave quantifiable marks at the molecular genetic/epigenetic level. Given the ubiquitous availability and cost effectiveness of telomere length assays, we suggest that quantitative telomere analysis should be regularly included in future psilocybin studies as an adjunctive biological marker (i.e., to facilitate scientific consilience via methodological triangulation). In order to substantiate the 'psilocybin-telomere hypothesis' potential neuropsychopharmacological, endocrinological, and genetic mechanisms of action are discussed (e.g., HPA-axis reactivity, hippocampal neurogenesis, neurotropic growth factors such as BDNF, 5-HT2A receptor agonism, neuroplasticity/synaptoplasticity, brain-wide alterations in neuronal functional connectivity density, involvement of the SLC6A4 serotonin transporter gene, inter alia). The proposed research agenda is thus intrinsically highly interdisciplinary, and it has deep ramifications from a philosophy of science perspective as it connects the epistemic level (qualitative experiential phenomenology) with the ontic level (quantitative molecular genetics) of analysis. In the long term, multidisciplinary and innovative investigations of the 'psilocybin-telomere hypothesis' could contribute to the improvement of senotherapeutic psychological interventions and the identification of novel geroprotective and neuroprotective/restorative pharmaceutical targets to decelerate genetic aging and improve well-being and quality of life during the aging process.

Anti-Aging Physiological Roles of Aryl Hydrocarbon Receptor and Its Dietary Regulators.

The vast majority of the literature on the aryl hydrocarbon receptor is concerned with its functions in xenobiotic detoxification. However, in the course of evolution, this receptor had to have physiological (rather than toxicological) functions. Our aim was to review the aryl hydrocarbon receptor's role in the physiological functions involved in aging. This study was performed by searching the MEDLINE and Google Academic databases. A total of 34 articles were selected that focused specifically on the aryl hydrocarbon receptor and aging, the aryl hydrocarbon receptor and physiological functions, and the combination of both. This receptor's main physiological functions (mediated by the modulation of gene expression) were cell regeneration, the immune reaction, intestinal homeostasis, and cell proliferation. Furthermore, it was shown that the loss of this receptor led to premature aging. This process may be caused by the dysregulation of hematopoietic stem cells, loss of glucose and lipid homeostasis, increase in inflammation, and deterioration of the brain. We conclude that the aryl hydrocarbon receptor, apart from its well-established role in xenobiotic detoxication, plays an important role in physiological functions and in the aging process. Modulation of the signaling pathway of this receptor could be a therapeutic target of interest in aging.

Does education level protect us from rapid ageing? Sirtuin expression versus age and level of education.

PURPOSE: SIR proteins (silent information regulators, sirtuins, SIRT1 - SIRT7, SIR1 - SIR7) belong to NAD+-dependent deacetylases, enzymes taking part in a catalytic reaction of deacetylation, i.e. splitting the rest of acetic acid from protein substrates. Sirtuins play an important role in many cellular processes and are, therefore, involved in the ageing process and in the regulation of cell life. The aim of this paper is to verify the statistical hypothesis assuming the correlation between the age and level of education of examined persons and the expression of selected sirtuins (SIR1 - SIR7, SIRT1 - SIRT7) at the mRNA level in the Polish population. MATERIAL AND METHODS: 197 people, aged M = 38.27 (SD = 13.19), in whom expression at the level of mRNA for SIR1 - SIR7 was determined, took part in the study (99 healthy people with a negative history of mental and somatic diseases and 98 people with diagnosed recurrent depressive disorders). RESULTS: A significant correlation was found in the case of age of the examined individuals and the expression of SIR1 - SIR7 at the mRNA level (p < 0.001). Differences in the expression of SIR1 - SIR7 were also found in relation to the level of education (number of years of education) of the examined population (p < 0.001). CONCLUSIONS: 1. The higher the number of years of education, the higher the level of SIR1 and SIR6 expression, and the lower the level of SIR2, SIR3, SIR4, SIR5 and SIR7 expression. 2. With age, the level of SIR1 and SIR6 expression decreases and the expression of SIR2, SIR3, SIR4, SIR5 and SIR7 increases.

Social environment improves immune function and redox state in several organs from prematurely aging female mice and increases their lifespan.

Aging is associated with a chronic oxidative stress (increase of oxidants and decrease of antioxidants), which contributes to immunosenescence and therefore shorter longevity. Nevertheless, a positive social network has been related to the adequate maintenance of health and deceleration of aging. Adult prematurely aging mice (PAM) are characterized by their inadequate stress response to a T-maze, showing premature immunosenescence and oxidative stress establishment. These impairments contribute to shorter life spans in comparison to exceptional non-PAM (ENPAM). However, it is not known whether these characteristics of PAM could be prevented by a positive cohabitation. Therefore, the aim of the present work was to determine if the premature immunosenescence and oxidative stress shown by PAM could be avoided by the cohabitation with ENPAM, increasing their life span. Female CD1 PAM and ENPAM were divided into three experimental groups: PAM controls, ENPAM controls and a social environment experimental group, containing in the same cage ENPAM and PAM (proportion 5/2, respectively). After 2 months, mice were sacrificed and spleen, thymus, liver and heart removed. Later, several immune functions as well as oxidative stress parameters were assessed in spleen and thymus leukocytes. Also, several oxidative stress parameters were analyzed in liver and heart. The results showed that PAM, after co-housing with ENPAM, had improved immune functions and redox balance in spleen and thymus leukocytes. This improvement of redox state was also observed in liver and heart. Furthermore, all these positive effects seem to be related to the increased life span of PAM.

[Optimizing nutrition of older people as a mean of preventing premature aging].

The review presents data on the characteristics of construction of the diet of older persons. It is shown that inadequate nutrition is a significant risk factor for cardiovascular diseases, obesity, type 2 diabetes mellitus, gout and others that contribute to premature aging. Optimization of the diet should be considered as one of the areas of prevention and rehabilitation of these diseases and the prevention of premature aging. Attention is drawn to the age peculiar properties of the energy value of the diet, the content and the ratio of macronutrients in it. Modern data on the recommended daily intake of micronutrients -vitamins, minerals and trace elements for the elderly are presented. From the positions of the theory of oxidative stress, chronic inflammation and high-calorie nutrition, it is considered expedient to include products containing antioxidant ingredients: vitamins, trace elements and minor biologically active food components in the diet.

Natural antioxidants in prevention of accelerated ageing: a departure from conventional paradigms required

The modern lifestyle is characterised by various factors that cause accelerating ageing by the upregulation of oxidative stress and inflammation-two processes that are inextricably linked in an endless circle of self-propagation. Inflammation in particular is commonly accepted as aetiological factor in many chronic disease states, such as obesity, diabetes and depression. In terms of disease prevention or treatment, interventions aimed at changing dietary and/or exercise habits have had limited success in practise, mostly due to poor long-term compliance. Furthermore, other primary stimuli responsible for eliciting an oxidative stress or inflammatory response-e.g. psychological stress and anxiety-cannot always be easily addressed. Thus, preventive medicine aimed at countering the oxidative stress and/or inflammatory responses has become of interest. Especially in developing countries, such as South Africa, the option of development of effective strategies from plants warrants further investigation. A brief overview of the most relevant and promising South African plants which have been identified in the context of inflammation, oxidative stress and chronic disease is provided here. In addition, and more specifically, our group and others have shown considerable beneficial effects across many models, after treatment with products derived from grapes. Of particular interest, specific cellular mechanisms have been identified as therapeutic targets of grape-derived polyphenols in the context of inflammation and oxidative stress. The depth of these studies afforded some additional insights, related to methodological considerations pertaining to animal vs. human models in natural product research, which may address the current tendency for generally poor translation of positive animal model results into human in vivo models. The importance of considering individual data vs. group averages in this context is highlighted

[Fibroblast growth factor-21 as a marker of premature aging in young and middled-aged men with type 2 diabetes].

AIM: To investigate the impact of fibroblast growth factor 21 (FGF-21) on the severity of androgen deficiency in young and middle-aged men with type 2 diabetes mellitus. MATERIALS AND METHODS: The study comprised 100 men with type 2 diabetes mellitus, cardiovascular multi-morbidity, obesity and androgen deficiency (study group) and 20 healthy men aged 35-50 years. The study group was further divided into two subgroups. Patients of the subgroup 1 received the standard treatment for type 2 diabetes and cardiovascular disease. Patients of the subgroup two were treated with conventional therapy concurrently with testosterone undecanoate. The baseline examination included the following parameters: glycated hemoglobin, total testosterone, prolactin, thyroid stimulating hormone and blood FGF-21. At nine months after the treatment, the blood levels of glycated hemoglobin, FGF21 and testosterone were re-examined. The evaluation of the severity of androgen deficiency was carried out using the ICEF-5 questionnaire and the Aging Males Symptoms scale (AMS). RESULTS: In the study group, the mean FGF-21 level was 2.7 times higher, and the total testosterone level was 2-2.5 times lower than in the control group (p<0.05). A negative correlation was found between the blood levels of FGF-21 and total testosterone (r=-0.41, p<0.05). At nine months post treatment, the subgroup with testosterone undecanoate administered as add-on therapy showed a further decrease in FGF-21 levels and improved androgen deficiency symptoms. DISCUSSION: FGF-21 is one of the markers for type 2 diabetes, cardiovascular multi-morbidity, obesity and androgen deficiency. Given the association of FGF-21 with androgen deficiency, it can be assumed that FGF-21 plays a role in premature aging. Treatment of androgen deficiency as add-on therapy to the standard treatment of this category of patients improves their prognosis and the quality of life. CONCLUSION: Young and middle-aged men with type 2 diabetes should undergo regular screening for androgen deficiency with the purpose of its early diagnosis and timely treatment. The detection of elevated levels of FGF-21 in young and middle-aged men with type 2 diabetes mellitus and cardiovascular multi-morbidity may indicate premature aging and requires preventive measures.

Protective effects of ginsenoside Rg1 on splenocytes and thymocytes in an aging rat model induced by d-galactose.

Physiological aging is associated with a range of medical problems. However, the treatment of aging-associated diseases and prolonging human life are vital to our current aging societies. Panax ginseng, a traditional Chinese medicine, has been shown to have anti-oxidative and anti-aging effects. In the current study, aging rats induced by d-galactose were administered ginsenoside Rg1, then splenocytes and thymocytes were extracted and changes in activity were detected. The results demonstrated that compared with the d-gal group, the level of advanced glycation end products (AGE), the ratio of splenocytes and thymocytes in G0 phase (%), and apoptosis (%) of splenocytes and thymocytes, the ratio (%) of SA-gal positive splenocytes and thymocytes, the content of reactive oxygen species (ROS) and malondialdehyde (MDA), the ratio of glutathione (GSH) to oxidized glutathione (GSSG) and senescence-associated protein expression were significantly decreased and the index of the spleen and thymus, the proportion of white pulp in the spleen, the proportion of cortex in the thymus, the content of interleukin-2 (IL-2), interleukin-6 (IL-6), granulocyte-macrophage colony stimulating factor (GM-CSF), tumor necrosis factor-α (TNF-α), the activities of superoxide dismutase (SOD), and the proliferative capacity of splenocytes and thymocytes were increased in the Rg1+ d-gal group. These findings demonstrated that ginsenoside Rg1 may antagonize spleen and thymus damage in d-galactose-induced aging rats by alleviating oxidative stress injury and down-regulating the expression of senescence-associated protein.

Natural antioxidants in prevention of accelerated ageing: a departure from conventional paradigms required.

The modern lifestyle is characterised by various factors that cause accelerating ageing by the upregulation of oxidative stress and inflammation-two processes that are inextricably linked in an endless circle of self-propagation. Inflammation in particular is commonly accepted as aetiological factor in many chronic disease states, such as obesity, diabetes and depression. In terms of disease prevention or treatment, interventions aimed at changing dietary and/or exercise habits have had limited success in practise, mostly due to poor long-term compliance. Furthermore, other primary stimuli responsible for eliciting an oxidative stress or inflammatory response-e.g. psychological stress and anxiety-cannot always be easily addressed. Thus, preventive medicine aimed at countering the oxidative stress and/or inflammatory responses has become of interest. Especially in developing countries, such as South Africa, the option of development of effective strategies from plants warrants further investigation. A brief overview of the most relevant and promising South African plants which have been identified in the context of inflammation, oxidative stress and chronic disease is provided here. In addition, and more specifically, our group and others have shown considerable beneficial effects across many models, after treatment with products derived from grapes. Of particular interest, specific cellular mechanisms have been identified as therapeutic targets of grape-derived polyphenols in the context of inflammation and oxidative stress. The depth of these studies afforded some additional insights, related to methodological considerations pertaining to animal vs. human models in natural product research, which may address the current tendency for generally poor translation of positive animal model results into human in vivo models. The importance of considering individual data vs. group averages in this context is highlighted.

Place of vitamin D in the prevention of premature aging and the development of age-associated diseases.

There is an ongoing search for the molecular and biochemical mechanisms underlying the development of aging and age-associated diseases. At the same time there is growing evidence geroprotective properties of vitamin D. In this review, described in detail the possible mechanisms by which vitamin D affects differentiation, cell proliferation and apoptosis, and describes the potential benefits of this vitamin in the fight against aging and age-related diseases.

Effects of Spirulina on the functions and redox status of auditory system in senescence-accelerated prone-8 mice.

To our knowledge, the effects of Spirulina platensis water extract (SP) on hearing function have not yet been reported. This study investigated the effects of SP on the function and redox status of the auditory system. Auditory brainstem responses and redox status were compared between two groups of 3-month-old senescence-accelerated prone-8 (SAMP8) mice: the control group was fed a normal diet, and the experimental group was fed a normal diet with oral supplementation of SP for 6 weeks. Compared with the control group, the experimental group had significantly lower hearing thresholds according to auditory brainstem responses measured using click sounds and 8-kHz tone burst sound stimulation at the end of this study. The experimental group had a shorter I-III interval of auditory brainstem responses with 16-kHz tone burst stimulation than the control group that was of borderline significance. Additionally, the experimental group had significantly higher mRNA expression of the superoxide dismutase and catalase genes in the cochlea and brainstem and significantly higher mRNA expression of the glutathione peroxidase gene in the cochlea. Further, the experimental group had significantly lower malondialdehyde levels in the cochlea and brainstem than the control group. However, tumor necrosis factor-α mRNA expression was not significantly different between the control and experimental groups. SP could decrease hearing degeneration in senescence-accelerated prone-8 mice possibly by increasing superoxide dismutase, catalase, and glutathione peroxidase gene expression and decreasing damage from oxidative stress in the cochlea and brainstem.

A pilot investigation of the impact of smoking cessation on biological age.

BACKGROUND AND OBJECTIVES: Smoking is known to increase biological age. However, whether this process is reversible through smoking cessation is not known. In this pilot study, we attempt to determine whether smoking cessation reduces biological age. METHODS: We conducted regression analyses of methylation data from 22 subjects, as they entered and exited inpatient substance use treatment, to determine change in biological age, as indicated by the deviation of their methylomic age from chronological age across two time points. RESULTS: We found that, as compared to those subjects who did not stop smoking, subjects who significantly decreased their smoking consumption over a 1 month time period exhibited a marked reduction in methylomic age. CONCLUSION: The rapid and substantial reversal of accelerated aging associated with successful smoking cessation suggests that it can reverse well-known smoking effects on methylomic aging. This preliminary finding can be readily examined in other, larger data sets, and if replicated, this observation may provide smokers with yet another good reason to quit smoking. SCIENTIFIC SIGNIFICANCE: Successful smoking cessation makes patients appear biologically younger than they were at baseline, and to do so quite rapidly. In today's youth driven society, our observations may serve as a powerful impetus for some to quit smoking. (Am J Addict 2017;26:129-135).

Influence of aging and growth hormone on different members of the NFkB family and IkB expression in the heart from a murine model of senescence-accelerated aging.

Inflammation is related to several pathological processes. The aim of this study was to investigate the protein expression of the different subunits of the nuclear factor Kappa b (NFkBp65, p50, p105, p52, p100) and the protein expressions of IkB beta and alpha in the hearts from a murine model of accelerated aging (SAM model) by Western blot. In addition, the translocation of some isoforms of NFkB from cytosol to nuclei (NFkBp65, p50, p52) and ATP level content was studied. In addition we investigated the effect of the chronic administration of growth hormone (GH) on these age-related parameters. SAMP8 and SAMR1 mice of 2 and 10 months of age were used (n = 30). Animals were divided into five experimental groups: 2 old untreated (SAMP8/SAMR1), 2 young control (SAMP8/SAMR1) and one GH treated-old groups (SAMP8). Age-related changes were found in the studied parameters. We were able to see decreases of ATP level contents and the translocation of the nuclear factor kappa B p50, p52 and p65 from cytosol to nuclei in old SAMP8 mice together with a decrease of IKB proteins. However p100 and p105 did not show differences with aging. No significant changes were recorded in SAMR1 animals. GH treatment showed beneficial effects in old SAMP8 mice inducing an increase in ATP levels and inhibiting the translocation of some NFkB subunits such as p52. Our results supported the relation of NFkB activation with enhanced apoptosis and pro-inflammatory status in old SAMP8 mice and suggested a selective beneficial effect of the GH treatment, which was able to partially reduce the incidence of some deleterious changes in the heart of those mice.