Sex/gender-related differences in inflammaging

Operant effort-based decision-making task reveals sex differences in motivational behavior but no long-term effects of adolescent intermittent ethanol in Sprague Dawley rats

Loss of motivated behavior, or apathy, is a key feature across multiple affective disorders, and is assessed via operant effort-based decision-making (EBDM). The mechanisms of amotivation have been connected to pro-inflammatory signaling which can directly impact dopamine signaling. Chronic alcohol exposure is associated with altered immune signaling and impaired goal-directed behavior, so the present studies assessed the impact of adolescent intermittent ethanol (AIE) on EBDM in adulthood across sex. Adolescent male and female (N = 32/n = 8 per group) Sprague-Dawley rats were exposed to ethanol (4 g/kg) intragastrically on a 3 days on/2 days off schedule during postnatal days ~30-50 or given vehicle, and allowed to age into adulthood (P80+). All rats were then trained on the operant EBDM concurrent FR5/chow task, after which we tested the impact of sex and AIE history on responding 1) during breakpoint challenge raising the FR requirement in a log2 pattern, 2) 90 min after immune challenge (2 μg/kg IL-1β), 3) 18 h after 3.5 g/kg intraperitoneal ethanol challenge (hangover), and 4) immediately after a 30-min restraint stress challenge. Immune challenge disrupted motivated behavior without affecting appetite. No effects of AIE emerged and sex differences were evident throughout all challenges. Females responded less for pellets yet persisted responding until a higher breakpoint. This work indicates that AIE does not alter baseline or evoked EBDM as can be measured with this approach. Testing across aging and using other modalities should be performed to continue examining the effects of chronic alcohol on apathy.

Adverse childhood experiences and trajectories of chronic diseases: A population-base longitudinal study

OBJECTIVES

Adverse childhood experiences (ACEs) have far-reaching effects on health outcomes. This study aimed to evaluate the associations of ACEs with trajectories and number of chronic diseases.

STUDY DESIGN

Cohort study.

METHODS

Participants aged 45 years or older of China Health and Retirement Longitudinal Study were included. Ten kinds of ACEs encountered before 17 years old were calculated. Number of chronic diseases were assessed by 14 kinds of self-reported or proxy-reported diagnosed chronic diseases. The associations of specific types and number of ACEs with trajectories and number of chronic diseases were analyzed with latent class trajectory model, multinomial Logistic regression, and general estimating equation.

RESULTS

Four trajectories of chronic diseases were identified in 12157 participants. With the reference of low baseline and persistent growth trajectory, those encountered physical abuse, domestic violence, household mental illness, and parental death had higher risks of high baseline and transient growth trajectory, middle baseline and accelerated growth trajectory of chronic diseases (ORs = 1.18-1.65). Compared to those without ACEs, those with 1 and above kinds of ACEs had elevated risks of middle baseline and persistent growth, high baseline and transient growth trajectory, middle baseline and accelerated growth trajectory of chronic diseases (ORs = 1.15-2.71). Physical abuse, domestic violence, bullying, household mental illness, parental death, and exposure of 2 and above kinds of ACEs increased the number of chronic diseases (β = 0.09-0.62). Associations of ACEs with trajectories and number of chronic diseases were more salient in women than men.

CONCLUSIONS

Different types and number of ACEs were related to trajectories of chronic diseases, especially in women. Early, comprehensive, and joint actions should be taken to prevent chronic diseases from a life-course perspective.

Gene Expression Changes as Biomarkers of Immunosenescence in Bulgarian Individuals of Active Age

Background/Objectives: Immunosenescence implies innate and adaptive immunity dysfunction, which naturally occurs with aging. It is a complex multifactorial process which can be triggered by either genetic changes, immune changes or both. Numerous research studies have shown that the process of senescence goes alongside chronic immune activation. The purpose of this study is to analyze the changes in the expression of genes associated with adaptive and innate immune responses in order to identify reliable biomarkers for immune aging. Methods: For that aim, 55 clinically healthy individuals of active age (21-65 years) were distributed based on immunophenotyping in two groups, with and without signs of premature senescence. A gene expression analysis was subsequently made on those two groups, and the differentially expressed genes were presented and interpreted. Results: Altogether, forty-eight (48) genes exhibited differential expression between the two groups, most of which showed up-regulation (45) (fold change more than 2), and only three were down-regulated (fold change less than -2). The highest positive fold change showed IL-1β (10.76), BCL6 (13.25) and CCL4 (15.91), while the highest negative fold changes were documented for IL23R (-3.10), IL5 (-2.66) and PTGS2 (COX-2) (-2.15). Conclusions: Our results reveal that immunosenescence is positively associated with chronic inflammation, which is typical for the aging process. On the other hand, we identified markers of possible protective effects against oxidative stress and tumorigenesis. These findings can aid the early diagnosis of chronic degenerative diseases in subclinical phase, as well as the development of strategies to prevent the processes of premature immune aging.

The association between the C-reactive protein-to-albumin-to-lymphocyte index and retinopathy: insights from a population-based study

Introduction

Retinopathy is a multifactorial disease influenced by metabolism, immunity, inflammation, and other factors. The C-reactive protein-albumin-lymphocyte (CALLY) index is a novel immunonutritional score that has shown promise in various health contexts. This study aims to investigate the association between the CALLY index and retinopathy risk, and to compare its predictive performance with other established inflammatory markers.

Methods

Data from 5,439 participants in the 2005-2008 National Health and Nutrition Examination Survey (NHANES) were utilized. Multivariable-weighted logistic regression was employed to assess the association between the CALLY index and retinopathy risk. Additionally, the predictive performance of the CALLY index was compared with other inflammatory markers. Mediation analysis was conducted to explore potential mediating factors in the association between the CALLY index and retinopathy.

Results

Multivariable-weighted logistic regression revealed a significant inverse association between the CALLY index and retinopathy risk (OR = 0.96, 95% CI = 0.94-0.98, P = 0.002). Participants in the highest CALLY index quartile exhibited a markedly lower risk of retinopathy (P < 0.001). The CALLY index demonstrated superior predictive performance compared to other inflammatory markers, with an area under the curve (AUC) of 0.672 (95% CI = 0.643-0.701). Mediation analysis indicated that high-density lipoprotein (HDL) levels partially mediated the association between the CALLY index and retinopathy.

Discussion

These findings highlight the CALLY index as a reliable, independent biomarker for retinopathy risk assessment, outperforming traditional inflammatory markers and oering potential clinical value for early identification of retinopathy in individuals with chronic diseases.

Does Lifelong Exercise Counteract Low-Grade Inflammation Associated with Aging? A Systematic Review and Meta-Analysis

BACKGROUND

Aging is associated with sustained low-grade inflammation, which has been linked to age-related diseases and mortality. Long-term exercise programs have been shown to be effective to for attenuating this process; however, subsequent detraining might negate some of these benefits. Master athletes, as a model of lifelong consistent exercise practice, have been suggested to present similar inflammatory profiles to untrained young adults. Nonetheless, it is unclear whether maintaining training habits throughout life can completely counteract low-grade inflammation associated with aging.

OBJECTIVES

We aimed to systematically evaluate comparisons of baseline inflammatory profiles in Master athletes, untrained middle-aged and older adults, and untrained young individuals to elucidate whether lifelong exercise can counteract low-grade inflammation associated with aging.

METHODS

A systematic review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement, and a protocol was prospectively registered in PROSPERO (CRD42024521339). Studies reporting baseline systemic levels of proinflammatory and anti-inflammatory markers in Master athletes and untrained controls were eligible for inclusion. A total of six databases (PubMed [MEDLINE], Embase, Cochrane Central Register of Controlled Trials [CENTRAL], Scopus, SPORTDiscus, and Web of Science [WoS]) were searched in September 2024, and studies were independently screened by two reviewers. Risk of bias was assessed using an adapted version of the Joanna Briggs Institute Critical Appraisal tool for cross-sectional trials, and random-effect meta-analyses of standardized mean differences (SMDs) of inflammatory markers were conducted to evaluate comparisons between Master athletes and age-matched untrained middle-aged and older adults as well as Master athletes and young untrained subjects. Subgroup analyses were performed based on exercise intensity and type, and participants' sex.

RESULTS

A total of 17 studies (n = 649 participants) were included both in qualitative and quantitative synthesis. Lifelong exercise appears to attenuate increases in baseline C-reactive protein, and to elevate anti-inflammatory interleukin (IL)-10 levels compared with untrained middle-aged and older adults (C-reactive protein: SMD - 0.71, 95% confidence interval - 0.97, - 0.45, I2 0%, p = 0.78; IL-10: SMD 1.44, 95% confidence interval 0.55, 2.32, I2 87%, p < 0.00001). Statistical significance was maintained in C-reactive protein and IL-10 sub-analyses. No difference in tumor necrosis factor-α levels was observed between Master athletes and untrained middle-aged and older adults (SMD 0.40, 95% confidence interval - 0.15, 0.96, I2 72%, p = 0.0008). A trend towards decreased IL-6 levels in Master athletes was shown in pooled analyses comparing untrained middle-aged and older adults, and rendered statistically significant in sub-analyses. However, comparisons with young untrained adults indicated that Master athletes still present with elevated levels of tumor necrosis factor-α and IL-6, along with decreased IL-10.

CONCLUSIONS

Master athletes might exhibit a more anti-inflammatory profile denoted by decreased baseline circulating levels of C-reactive protein and, potentially, IL-6, along with increased IL-10 compared with healthy age-matched untrained peers. However, lifelong exercise might still be insufficient to completely counteract age-related changes in tumor necrosis factor-α, IL-6, and IL-10, as shown in comparisons with untrained young adults.

Sexual dimorphism in periodontal inflammation: A cross-sectional study

BACKGROUND

The purpose of the present study was to evaluate the role of sexual dimorphism (SD) in the clinical manifestation of plaque-induced periodontal inflammation by analyzing the association between patient-related factors and the full-mouth prevalence of bleeding on probing (BOP%) within 2 cohorts of male and female individuals.

METHODS

Data on BOP (dichotomously recorded as present/absent after the assessment of probing depth [PD]) were retrospectively obtained from the files of adult patients undergoing a first periodontal visit at a University center. Two multiple regression models (1 for males, 1 for females) were built with BOP% as the dependent variable and patient-related factors (i.e., age; smoking status; daily cigarette consumption; history of diabetes diagnosis; number of teeth present; proportion of sites with PD ≥ 5 mm around teeth) as independent variables.

RESULTS

In males (n = 212), BOP% was 5.9% lower in smokers compared to non-smokers (p = 0.021). In females (n = 389), BOP% increased by 1.6% for each 10-year increase in age (p = 0.046). The proportion of sites with PD ≥ 5 mm showed a strongly significant, positive association with BOP% irrespective of biological sex (p < 0.001).

CONCLUSION

SD manifested as a sex-dependent diversity in the association between patient-related factors and periodontal inflammation expressed as BOP%. While smoking determined a lower BOP% only in males, aging was associated with increased BOP% only in females.

PLAIN LANGUAGE SUMMARY

Gingival bleeding upon mechanical stimulation of the bottom of the gingival sulcus/pocket with a periodontal probe (bleeding on probing [BOP]) is suggestive of the presence of an inflammatory infiltrate induced by dental plaque within the gingival tissue. The prevalence of BOP within the dentition (BOP%) has a diagnostic relevance, being one of the main parameters to discriminate between periodontal health and disease. Also, BOP% informs the probability for a patient to either develop destructive form of periodontal disease (i.e., periodontitis) or manifest periodontitis progression. Based on the documented influence of biological sex on the incidence, traits, and/or progression rate of several diseases, which goes under the name of sexual dimorphism (SD), the effect of SD was investigated in relation to the factors that were previously associated with BOP% in a cohort of patients with heterogeneous periodontal conditions undergoing their first periodontal visit. Interestingly, SD manifested as a sex-dependent diversity in the association between patient-related factors and periodontal inflammation expressed by BOP%. While smoking determined a lower BOP% only in males, aging was associated with increased BOP% only in females. The present findings may find potential applications in personalized periodontal medicine and inspire future studies in this field.

Sex-specific associations of neurodegeneration and inflammatory biomarkers with intrinsic capacity in older adults: Findings from the 4-year longitudinal Multidomain Alzheimer's Prevention Trial (MAPT)

This four-year longitudinal study investigated whether the cross-sectional and longitudinal associations of inflammation-related and neurodegenerative-related blood biomarkers with intrinsic capacity differ according to sex. The sample comprised 1117 older adults (<70 years, 63.8 % females) from the Multidomain Alzheimer's Prevention Trial (MAPT). The domains of intrinsic capacity were operationalized as cognition (Mini-Mental State Examination), locomotion (Short Physical Performance Battery), vitality (Handgrip Strength), and psychological well-being (Geriatric Depression Scale), each scaled from 0 (worst intrinsic capacity possible) to 100 (best intrinsic capacity possible). Plasma biomarkers included interleukin 6 (picograms per milliliter), growth differentiation factor-15 (picograms per milliliter), tumor necrosis factor receptor 1 (picograms per milliliter), neurofilament light chain (picograms per milliliter), progranulin (nanograms per milliliter), and amyloid-beta ratio. Linear mixed models were analyzed to examine whether sex modified the cross-sectional and longitudinal association between biomarkers and intrinsic capacity. No significant interaction effect was observed at baseline. Longitudinal analyses revealed a significant interaction between sex and interleukin 6 (p = .005), such that higher levels of interleukin 6 tended to be associated with a faster decline in intrinsic capacity for males (B = -0.385; p = .055; 95 % CI = -0.778; 0.008) but not for females (B = 0.287; p = .041; 95 % CI = 0.011; 0.563). The other biomarkers had no sex-dependent associations with intrinsic capacity. A potential sex-dependent effect of the inflammatory status on intrinsic capacity must be further investigated. Clinical trial registration with ClinicalTrials.govNCT00672685.

Monocyte and macrophage profiles in patients with inherited long-chain fatty acid oxidation disorders

Patients with inherited disorders of the long-chain fatty acid oxidation (lcFAO) machinery present with a heterogeneous profile of disease manifestations and aggravation of symptoms is often triggered by inflammatory activation. Monocytes and macrophages are innate immune cells that play a major role in the onset and resolution of inflammation. These cells undergo metabolic rewiring upon activation including the regulation of the FAO rate. The rewiring of FAO and the effect of lcFAO disorders (lcFAOD) on human monocyte and macrophage phenotype and function remain largely unknown. Here, we performed extensive phenotyping of circulating monocytes and analyzed plasma cytokine levels in 11 lcFAOD patients and 11 matched control subjects. In patients with lcFAOD, we observed induced plasma levels of the inflammatory cytokines IL-1β and IL-6, and enhanced CD206 and CD62L surface marker expression in circulating monocyte subsets. To mimic the most common lcFAOD very-long-chain acyl-CoA dehydrogenase disorder (VLCADD), we used siRNA-mediated knockdown of the ACADVL gene (encoding VLCAD) in macrophages derived from healthy volunteers. Hereby, we found that siVLCAD affected IL-4-induced alternative macrophage activation while leaving LPS responses and cellular metabolism intact. In the same line, monocyte-derived macrophages from lcFAOD patients had elevated levels of the IL-4-induced alternative macrophage markers CD206 and CD200R. Still, they did not show major metabolic defects or changes in the LPS-induced inflammatory response. Our results indicate that monocytes and macrophages from lcFAOD patients present no major inflammatory or metabolic differences and show that IL-4-induced surface markers are intertwined with lcFAO in human macrophages.

Associations of age and sex with characteristics of extracellular vesicles and protein-enriched fractions of blood plasma

Extracellular vesicles (EVs) are nanosized particles that are released by various cell types and play vital roles in intercellular communication. They carry biological molecules reflecting the physiological and pathological states of their source cells and tissues, showing potential as biomarkers. However, the impact of demographic factors like age and sex on the properties of blood plasma EVs remains underexplored. This study aims to fill this gap by evaluating how these factors influence the particle count and proteomic profiles of plasma EV preparations and corresponding protein fractions. Plasma samples from 120 healthy volunteers were collected and pooled into six groups: young males (age: 27.6 ± 4.0), young females (27.4 ± 3.8), middle-aged males (48.8 ± 3.8), middle-aged females (48.9 ± 3.9), old males (69.3 ± 3.9), and old females (69.4 ± 4.3). EV- and protein-enriched fractions were separated by size-exclusion chromatography (SEC). Fractions were characterized for particle number concentration and protein composition to identify characteristics affected by age and biological sex. Plasma EVs and corresponding protein fractions exhibited distinct characteristics, with differential enrichment of markers related to EVs and other blood components, including lipoproteins. Proteomic profiles of both EVs and protein fractions displayed sex- and age-dependent differences. Differentially abundant proteins displayed functions previously identified in the context of aging and sex differences, highlighting their utility as biomarkers. Age and sex significantly affect the characteristics of plasma EVs and proteins, potentially influencing their efficacy and interpretation as biomarkers in clinical applications. This study lays the groundwork for detailed mechanistic research to understand how EVs mediate age- and sex-related effects in health.

Sex-specific transcriptomic effects of low-dose inorganic arsenic exposure on bone marrow-derived macrophages

Both tissue-resident macrophages and monocytes recruited from the bone marrow that transform into tissue-resident cells play critical roles in mediating homeostasis as well as in the pathology of inflammatory diseases. Inorganic arsenic (iAs) is the most common drinking water contaminant worldwide and represents a major public health concern. There are numerous diseases caused by iAs exposure in which macrophages are involved, including cardiovascular disease, cancer, and increased risk of (respiratory) infectious diseases. Notably, prenatal iAs exposure is also associated with negative birth outcomes and developmental immunotoxicity (DIT) contributing to long-term adverse outcomes of these immune-related diseases. Therefore, understanding the effects of iAs exposure on macrophages, particularly during immune development or tissue injury and inflammation, can help us better grasp the full range of arsenic immunotoxicity and better design therapeutic targets for iAs-induced diseases particularly in exposed populations. In contrast to prior published studies which often only focused on the effect of iAs on mature macrophages after development, in this study, we analyzed the transcriptome of M0-, M1- and M2-polarized male and female murine bone marrow-derived macrophages (BMDMs) which were exposed to iAs during the differentiation phase, as a model to study iAs (developmental) immunotoxicity. We identified differentially expressed genes by iAs in a sex- and stimulation-dependent manner and used bioinformatics tools to predict protein-protein interactions, transcriptional regulatory networks, and associated biological processes. Overall, our data suggest that M1-stimulated, especially female-derived, BMDMs are most susceptible to iAs exposure during differentiation. Most notably, we observed significant downregulation of major proinflammatory transcription factors, like IRF8, and its downstream targets, as well as genes encoding proteins involved in pattern recognition and antigen presentation, such as TLR7, TLR8, and H2-D1, potentially providing causal insight regarding the role of (early-life) arsenic exposure in perturbing immune responses to infectious diseases. We also observed significant downregulation of genes involved in processes crucial to coordinating a proinflammatory response including leukocyte migration, differentiation, and cytokine and chemokine production and response. Finally, we discovered that 24 X-linked genes were dysregulated in iAs-exposed female stimulation groups compared to only 3 across the iAs-exposed male stimulation groups. These findings elucidate the potential mechanisms underlying the sex-differential iAs-associated immune-related disease risk.

The biological roots of the sex-frailty paradox

Aging is a dynamic process that requires a continuous response and adaptation to internal and external stimuli over the life course. This eventually results in people aging differently and women aging differently than men. The "gender paradox" describes how women experience greater longevity than men, although linked with higher rates of disability and poor health status. Recently, the concept of frailty has been incorporated into this paradox giving rise to the "sex-frailty paradox" which describes how women are frailer because they manifest worse health status but, at the same time, appear less susceptible to death than men of the same age. However, very little is known about the biological roots of this sex-related difference in frailty. Inflamm-aging, the chronic low-grade inflammatory state associated with age, plays a key pathophysiological role in several age-related diseases/conditions, including Alzheimer's disease (AD), for which women have a higher lifetime risk than men. Interestingly, inflamm-aging develops at a different rate in women compared to men, with features that could play a critical role in the development of AD in women. According to this view, a continuum between aging and age-related diseases that probably lacks clear boundaries can be envisioned in which several shared biological mechanisms that progress at different pace may lead to different aging trajectories in women than in men. It, therefore, becomes urgent to consider a holistic approach in the study of aging, and decline it from a gender medicine perspective also considering the biological roots of the sex-frailty paradox.

The role of socioeconomic factors in sex differences in intrinsic capacity among older adults: A cross-sectional study in Taiwan

Objectives

The World Health Organization's Integrated Care for Older People (ICOPE) framework launched in 2019 is used to assess the intrinsic capacity of older individuals. Older women may face greater socioeconomic disadvantages, which can impact their physical and mental well-being. Therefore, we examined sex differences in intrinsic capacity and the influence of socioeconomic status.

Methods

We conducted a cross-sectional study in Tainan, Taiwan, recruiting 1,268 adults aged 60 or older in 2022. The ICOPE screening assessed cognitive decline, limited mobility, malnutrition, visual impairment, hearing loss, and depressive symptoms. Intrinsic capacity scores ranged from 0 to 6 and were categorized as impairment (1 or higher) or no impairment (0). Binary logistic regression models were used to analyze sex differences in intrinsic capacity, adjusting sequentially for demographics, lifestyle, and socioeconomic factors.

Results

The prevalence of intrinsic capacity impairment was 34 %. Women had significantly higher odds of intrinsic capacity impairment (women vs. men, odds ratio [OR] = 1.39, 95 % CI = 1.10-1.75). After sequentially adjusting for demographic characteristics, lifestyle, and socioeconomic factors, the ORs were 1.46 (95 % CI = 1.12-1.90), 1.69 (95 % CI = 1.23-2.31), and 1.24 (95 % CI = 0.88-1.73), respectively. Stratified analyses showed that higher odds of impairment in women than in men was evident only in the financially dependent group (P for interaction = 0.059).

Conclusions

Older women in Taiwan have poorer intrinsic capacity than men, a disparity largely attributable to women's lower socioeconomic status. Strategies to promote healthy aging among women from disadvantaged socioeconomic backgrounds may help mitigate this sex difference in intrinsic capacity.

Inflammation scores based on C-reactive protein and albumin predict mortality in hospitalized older patients independent of the admission diagnosis

Systemic inflammation significantly increases the risk of short- and long-term mortality in geriatric hospitalized patients. To predict mortality in older patients with various age-related diseases and infections, including COVID-19, inflammatory biomarkers such as the C-reactive protein (CRP) to albumin ratio (CAR), and related scores and indexes, i.e. Glasgow Prognostic Score (GPS), modified GPS (mGPS), and high sensitivity (hs)-mGPS, have been increasingly utilized. Despite their easy affordability and widespread availability, these biomarkers are predominantly assessed for clinical purposes rather than predictive applications, leading to their underutilization in hospitalized older patients. In this study, we investigated the association of CAR, GPS, mGPS, and hs-mGPS with short-term mortality in 3,206 geriatric hospitalized patients admitted for acute conditions, irrespective of admission diagnosis. We observed that unit increases of CAR, and the highest classes of GPS, mGPS, and hs-mGPS were significantly associated with a two- to threefold increased risk of death, even adjusting the risk for different confounding variables. Interestingly, a hs-mGPS of 2 showed the highest effect size. Furthermore, gender analysis indicated a stronger association between all CRP-albumin based parameters and mortality in men, underscoring the gender-specific relevance of inflammation-based circulating parameters in mortality prediction. In conclusion, scores based on serum CRP and albumin levels offer additional guidance for the stratification of in-hospital mortality risk in older patients by providing additional information on the degree of systemic inflammation.

The influence of sex-specific factors on biological transformations and health outcomes in aging processes

The aging process demonstrates notable differences between males and females, which are key factors in disease susceptibility and lifespan. The differences in sex chromosomes are fundamental to the presence of sex bias in organisms. Moreover, sex-specific epigenetic modifications and changes in sex hormone levels impact the development of immunity differently during embryonic development and beyond. Mitochondria, telomeres, homeodynamic space, and intestinal flora are intricately connected to sex differences in aging. These elements can have diverse effects on men and women, resulting in unique biological transformations and health outcomes as they grow older. This review explores how sex interacts with these elements and shapes the aging process.

Telomere biology and its maintenance in schizophrenia spectrum disorders: Exploring links to cognition

OBJECTIVE

Contemporary research suggests reduced telomere length in schizophrenia spectrum disorders (SZ) compared to age-adjusted non-affected individuals. However, the role of telomere maintenance and telomere repair in SZ is poorly understood as well as the involvement of telomere biology in cognitive abnormalities in SZ.

METHODS

The study consisted of 758 participants (SZ [n = 357] and healthy controls, HC [n = 401]) collected as part of the Norwegian TOP study. Participants were assessed with standardized neuropsychological tests measuring five cognitive domains. Leucocyte telomere length (TL) was measured via blood and determined by quantitative real-time Polymerase Chain Reaction (qPCR) providing a telomere to single copy ratio (T/S ratio), used to estimate the mean telomere length. Telomerase activity was assessed by the expression levels of the Telomerase Reverse Transcriptase (TERT) and Telomerase RNA Component (TERC) genes. To assess telomere maintenance and telomere repair we calculated the telomerase expression to TL ratio (TERT/TL and TERC/TL respectively).

RESULTS

Patients had reduced TERT (F = 5.03, p = 0.03), but not TERC expression (F = 1.04, p = 0.31), and higher TERT/TL (F = 6.68, p = 0.01) and TERC/TL (F = 6.71, p = 0.01), adjusted for age, sex, and ethnicity. No statistically significant association was observed between any of the telomere biology markers and the cognitive domains (p > 0.05).

CONCLUSION

Our study shows changes in TERT expression and telomere maintenance and telomere repair in SZ compared HC. However, the role of telomere biology in the mechanism underlying cognitive impairment in psychosis seems limited.

Sex as a biological variable in ageing: insights and perspectives on the molecular and cellular hallmarks

Sex-specific differences in lifespan and ageing are observed in various species. In humans, women generally live longer but are frailer and suffer from different age-related diseases compared to men. The hallmarks of ageing, such as genomic instability, telomere attrition or loss of proteostasis, exhibit sex-specific patterns. Sex chromosomes and sex hormones, as well as the epigenetic regulation of the inactive X chromosome, have been shown to affect lifespan and age-related diseases. Here we review the current knowledge on the biological basis of sex-biased ageing. While our review is focused on humans, we also discuss examples of model organisms such as the mouse, fruit fly or the killifish. Understanding these molecular differences is crucial as the elderly population is expected to double worldwide by 2050, making sex-specific approaches in the diagnosis, treatment, therapeutic development and prevention of age-related diseases a pressing need.

Inflammaging: The Next Challenge-Exploring the Role of Gut Microbiota, Environmental Factors, and Sex Differences

The term 'inflammaging' has been coined to describe the chronic state of inflammation derived from ongoing cycles of tissue damage and the subsequent immune responses. This inflammatory status contributes to the decline of organs and physiological functions, accelerates the aging process, and increases the risk of age-related illnesses and death. During aging, the gut microbiota (GM) undergoes significant changes, including a decreased diversity of species, a decline in beneficial bacteria, and a rise in proinflammatory ones, resulting in persistent low-grade inflammation. Moreover, environmental factors, such as diet and medications, contribute to age-related changes in GM and immune function, preventing or promoting inflammaging. This narrative review aims to clarify the underlying mechanisms of inflammaging and to specifically investigate the influence of GM and several environmental factors on these mechanisms, while also exploring potential differences related to sex. Moreover, lifestyle and pharmacological interventions will be suggested to promote healthy aging.

The immunoregulatory role of monocytes and thrombomodulin in myelodysplastic neoplasms

Myelodysplastic neoplasms (MDS) are clonal disorders of the myeloid lineage leading to peripheral blood cytopenias. Dysregulation of innate immunity is hypothesized to be a potent driver of MDS. A recent study revealed increased thrombomodulin (TM) expression on classical monocytes in MDS, which was associated with prolonged survival. TM is a receptor with immunoregulatory capacities, however, its exact role in MDS development remains to be elucidated. In this review we focus on normal monocyte biology and report on the involvement of monocytes in myeloid disease entities with a special focus on MDS. Furthermore, we delve into the current knowledge on TM and its function in monocytes in health and disease and explore the role of TM-expressing monocytes as driver, supporter or epiphenomenon in the MDS bone marrow environment.

Sex-associated differences in cardiac ageing: Clinical aspects and molecular mechanisms

Despite the extensive clinical and scientific advances in prevention, diagnostics and treatment, cardiovascular diseases (CVD) remain the leading cause of morbidity and mortality worldwide for people aged 65 and over. Of all ageing-related diseases, CVD are responsible for almost one-third of deaths in the elderly, being above all cancers combined. Age is an independent and unavoidable risk factor contributing to the impairment of heart and blood vessels. As the average age of the population in industrialized countries has doubled in the last century, and almost a fifth of the world's population is predicted to be over 65 in the next decade, we can assume that the burden of CVD will fall primarily on the elderly. Evidence from basic and clinical science has shown that sex significantly influences the onset and severity of CVD. In women, CVD usually develop later than in men and with atypical symptomatology. After menopause, however, the incidence and severity of CVD increase in women, reaching equality in both sexes. Although intrinsic sexual dimorphism in cardiovascular ageing may contribute to the sex differences in CVD progression, the molecular mechanisms associated with cardiovascular ageing and their clinical value are not known in detail. In this review, we discuss the scientific knowledge available, focusing on structural, hormonal, genetic/epigenetic and inflammatory pathways, seeking to transfer these findings to the cardiovascular clinic in terms of prevention, diagnosis, prognosis and management of these pathologies and proposing possible validation of target specifics.

Sex and age differences in self-reported immune fitness

Studies have reported sex and age differences in self-rated health. On average, women rate their health as being poorer compared to men, and older individuals report poorer health than younger individuals. The current study evaluated sex and age differences for self-reported immune fitness, i.e. the capacity of the body to respond to health challenges (such as infections) by activating an appropriate immune response in order to promote health and prevent and resolve disease. Data from different survey studies (N = 8586) were combined for the current analyses. N = 8064 participants (93.3%) completed the single-item scale to assess momentary immune fitness (mean (Standard deviation, SD) age of 32.4 (16.7) years old, range: 18 to 103, 68.0% women) and N = 4263 participants (49.7%) completed the Immune Status Questionnaire (ISQ) to assess past year's immune fitness (mean (SD) age of 40.9 (17.1) years old, range: 18 to 103, 61.1% women). The analyses revealed that women rated their momentary and past year's immune fitness significantly lower than men (p < 0.001). A small but significant decline in momentary immune fitness when aging was found (r = -0.073, p < 0.001). In contrast, past year's immune fitness steadily improved with progressing age (r = 0.295, p < 0.001), and for each age group the difference from the 18-24 years old group was statistically significant (p < 0.001). When using age as covariate, the sex differences in immune fitness remained significant for both momentary immune fitness (p < 0.001) and past year's immune fitness (p < 0.001). In conclusion, women report a poorer momentary and past year's immune fitness than men. The sex effects in immune fitness are robust and seen across all age groups except the elderly. A relative stable momentary immune fitness was found across the age groups. However, past year's immune fitness (assessments with the ISQ) improved with age. This observation may be related to the fact that the studies comprised convenience samples. Therefore, the observed age effects should be interpreted with caution and require further investigation in nationally representative samples.

Molecular Signatures of Senescence in Periodontitis: Clinical Insights

Most of the elderly population is afflicted by periodontal diseases, creating a health burden worldwide. Cellular senescence is one of the hallmarks of aging and associated with several chronic comorbidities. Senescent cells produce a variety of deleterious secretions, collectively termed the senescence-associated secretory phenotype (SASP). This disrupts neighboring cells, leading to further senescence propagation and inciting chronic inflammation, known as "inflammaging." Detrimental repercussions within the tissue microenvironment can trigger senescence at a younger age, accelerate biological aging, and drive the initiation or progression of diseases. Here, we investigated the biological signatures of senescence in healthy and diseased gingival tissues by assessing the levels of key senescence markers (p16, lipofuscin, and β-galactosidase) and inflammatory mediators (interleukin [IL]-1β, IL-6, IL-8, matrix metalloproteinase [MMP]-1, MMP-3, and tumor necrosis factor-α). Our results showed significantly increased senescence features including p16, lipofuscin, and β-galactosidase in both epithelial and connective tissues of periodontitis patients compared with healthy sites in all age groups, indicating that an inflammatory microenvironment can trigger senescence-like alterations in younger diseased gingival tissues as well. Subsequent analyses using double staining with specific cell markers noted the enrichment of β-galactosidase in fibroblasts and macrophages. Concurrently, inflammatory mediators consistent with SASP were increased in the gingival biopsies obtained from periodontitis lesions. Together, our findings provide the first clinical report revealing susceptibility to elevated senescence and inflammatory milieu consistent with senescence secretome in gingival tissues, thus introducing senescence as one of the drivers of pathological events in the oral mucosa and a novel strategy for targeted interventions.

The Impact of Immune System Aging on Infectious Diseases

Immune system aging is becoming a field of increasing public health interest because of prolonged life expectancy, which is not paralleled by an increase in health expectancy. As age progresses, innate and adaptive immune systems undergo changes, which are defined, respectively, as inflammaging and immune senescence. A wealth of available data demonstrates that these two conditions are closely linked, leading to a greater vulnerability of elderly subjects to viral, bacterial, and opportunistic infections as well as lower post-vaccination protection. To face this novel scenario, an in-depth assessment of the immune players involved in this changing epidemiology is demanded regarding the individual and concerted involvement of immune cells and mediators within endogenous and exogenous factors and co-morbidities. This review provides an overall updated description of the changes affecting the aging immune system, which may be of help in understanding the underlying mechanisms associated with the main age-associated infectious diseases.

Long-COVID-19 autonomic dysfunction: An integrated view in the framework of inflammaging

The recently identified syndrome known as Long COVID (LC) is characterized by a constellation of debilitating conditions that impair both physical and cognitive functions, thus reducing the quality of life and increasing the risk of developing the most common age-related diseases. These conditions are linked to the presence of symptoms of autonomic dysfunction, in association with low cortisol levels, suggestive of reduced hypothalamic-pituitary-adrenal (HPA) axis activity, and with increased pro-inflammatory condition. Alterations of dopamine and serotonin neurotransmitter levels were also recently observed in LC. Interestingly, at least some of the proposed mechanisms of LC development overlap with mechanisms of Autonomic Nervous System (ANS) imbalance, previously detailed in the framework of the aging process. ANS imbalance is characterized by a proinflammatory sympathetic overdrive, and a concomitant decreased anti-inflammatory vagal parasympathetic activity, associated with reduced anti-inflammatory effects of the HPA axis and cholinergic anti-inflammatory pathway (CAP). These neuro-immune-endocrine system imbalanced activities fuel the vicious circle of chronic inflammation, i.e. inflammaging. Here, we refine our original hypothesis that ANS dysfunction fuels inflammaging and propose that biomarkers of ANS imbalance could also be considered biomarkers of inflammaging, recognized as the main risk factor for developing age-related diseases and the sequelae of viral infections, i.e. LC.

Autonomic nervous system imbalance during aging contributes to impair endogenous anti-inflammaging strategies

Inflammaging refers to the age-related low grade, sterile, chronic, systemic, and long-lasting subclinical, proinflammatory status, currently recognized as the main risk factor for development and progression of the most common age-related diseases (ARDs). Extensive investigations were focused on a plethora of proinflammatory stimuli that can fuel inflammaging, underestimating and partly neglecting important endogenous anti-inflammaging mechanisms that could play a crucial role in such age-related proinflammatory state. Studies on autonomic nervous system (ANS) functions during aging highlighted an imbalance toward an overactive sympathetic nervous system (SNS) tone, promoting proinflammatory conditions, and a diminished parasympathetic nervous system (PNS) activity, playing anti-inflammatory effects mediated by the so called cholinergic anti-inflammatory pathway (CAP). At the molecular level, CAP is characterized by signals communicated via the vagus nerve (with the possible involvement of the splenic nerves) through acetylcholine release to downregulate the inflammatory actions of macrophages, key players of inflammaging. Notably, decreased vagal function and increased burden of activated/senescent macrophages (macrophaging) probably precede the development of several age-related risk factors and diseases, while increased vagal function and reduced macrophaging could be associated with relevant reduction of risk profiles. Hypothalamic-pituitary-adrenal axis (HPA axis) is another pathway related to ANS promoting some anti-inflammatory response mainly through increased cortisol levels. In this perspective review, we highlighted that CAP and HPA, representing broadly "anti-inflammaging" mechanisms, have a reduced efficacy and lose effectiveness in aged people, a phenomenon that could contribute to fuel inflammaging. In this framework, strategies aimed to re-balance PNS/SNS activities could be explored to modulate systemic inflammaging especially at an early subclinical stage, thus increasing the chances to reach the extreme limit of human lifespan in healthy status.

Sex differences in frailty among older adults

By definition, aging is a natural, gradual and continuous process. On the other hand, frailty reflects the increase in vulnerability to stressors and shortens the time without disease (health span) while longevity refers to the length of life (lifespan). The average life expectancy has significantly increased during the last few decades. A longer lifespan has been accompanied by an increase in frailty and decreased independence in older adults, with major differences existing between men and women. For example, women tend to live longer than men but also experience higher rates of frailty and disability. Sex differences prevent optimization of lifestyle interventions and therapies to effectively prevent frailty. Sex differences in frailty and aging are rooted in a complex interplay between uncontrollable (genetic, epigenetic, physiological), and controllable factors (psychosocial and lifestyle factors). Thus, understanding the underlying causes of sex differences in frailty and aging is essential for developing personalized interventions to promote healthy aging and improve quality of life in older men and women. In this review, we have discussed the key contributors and knowledge gaps related to sex differences in aging and frailty.

Neutrophil-to-lymphocyte ratio (NLR) predicts mortality in hospitalized geriatric patients independent of the admission diagnosis: a multicenter prospective cohort study

BACKGROUND

The Neutrophil-to-lymphocyte ratio (NLR) is a marker of poor prognosis in hospitalized older patients with different diseases, but there is still no consensus on the optimal cut-off value to identify older patients at high-risk of in-hospital mortality. Therefore, in this study we aimed at both validating NLR as a predictor of death in older hospitalized patients and assess whether the presence of specific acute diseases can modify its predictive value.

METHODS

This prospective cohort study included 5034 hospitalizations of older patients admitted to acute care units in the context of the ReportAge study. NLR measured at admission was considered as the exposure variable, while in-hospital mortality was the outcome of the study. ROC curves with Youden's method and restricted cubic splines were used to identify the optimal NLR cut-off of increased risk. Cox proportional hazard models, stratified analyses, and Kaplan-Meier survival curves were used to analyse the association between NLR and in-hospital mortality.

RESULTS

Both continuous and categorical NLR value (cut-off ≥ 7.95) predicted mortality in bivariate and multivariate prognostic models with a good predictive accuracy. The magnitude of this association was even higher in patients without sepsis, congestive heart failure, and pneumonia, and those with higher eGFR, albumin, and hemoglobin (p < 0.001). A negative multiplicative interaction was found between NLR and eGFR < 45 (p = 0.001).

CONCLUSIONS

NLR at admission is a readily available and cost-effective biomarker that could improve identification of geriatric patients at high risk of death during hospital stay independent of admitting diagnosis, kidney function and hemoglobin levels.

Aging unconventionally: γδ T cells, iNKT cells, and MAIT cells in aging

Unconventional T cells include γδ T cells, invariant Natural Killer T cells (iNKT) cells and Mucosal Associated Invariant T (MAIT) cells, which are distinguished from conventional T cells by their recognition of non-peptide ligands presented by non-polymorphic antigen presenting molecules and rapid effector functions that are pre-programmed during their development. Here we review current knowledge of the effect of age on unconventional T cells, from early life to old age, in both mice and humans. We then discuss the role of unconventional T cells in age-associated diseases and infections, highlighting the similarities between members of the unconventional T cell family in the context of aging.

Potential long consequences from internal and external ecology: loss of gut microbiota antifragility in children from an industrialized population compared with an indigenous rural lifestyle

Human health is strongly mediated by the gut microbiota ecosystem, which, in turn, depends not only on its state but also on its dynamics and how it responds to perturbations. Healthy microbiota ecosystems tend to be in criticality and antifragile dynamics corresponding to a maximum complexity configuration, which may be assessed with information and network theory analysis. Under this complex system perspective, we used a new analysis of published data to show that a children's population with an industrialized urban lifestyle from Mexico City exhibits informational and network characteristics similar to parasitized children from a rural indigenous population in the remote mountainous region of Guerrero, México. We propose then, that in this critical age for gut microbiota maturation, the industrialized urban lifestyle could be thought of as an external perturbation to the gut microbiota ecosystem, and we show that it produces a similar loss in criticality/antifragility as the one observed by internal perturbation due to parasitosis by the helminth A. lumbricoides. Finally, several general complexity-based guidelines to prevent or restore gut ecosystem antifragility are discussed.

Sex, sepsis and the brain: defining the role of sexual dimorphism on neurocognitive outcomes after infection

Sexual dimorphisms exist in multiple domains, from learning and memory to neurocognitive disease, and even in the immune system. Male sex has been associated with increased susceptibility to infection, as well as increased risk of adverse outcomes. Sepsis remains a major source of morbidity and mortality globally, and over half of septic patients admitted to intensive care are believed to suffer some degree of sepsis-associated encephalopathy (SAE). In the short term, SAE is associated with an increased risk of in-hospital mortality, and in the long term, has the potential for significant impairment of cognition, memory, and acceleration of neurocognitive disease. Despite increasing information regarding sexual dimorphism in neurologic and immunologic systems, research into these dimorphisms in sepsis-associated encephalopathy remains critically understudied. In this narrative review, we discuss how sex has been associated with brain morphology, chemistry, and disease, sexual dimorphism in immunity, and existing research into the effects of sex on SAE.