Senescence Markers Research Articles

Impact of T Cell Exhaustion and Stroma Senescence on Tumor Cell Biology and Clinical Outcome of Head and Neck Squamous Cell Carcinomas

Head and neck squamous cell carcinomas (HNSCC) have an overall poor prognosis, especially in locally advanced and metastatic stages. In most cases, multimodal therapeutic approaches are required and show only limited cure rates with a high risk of tumor recurrence. Anti-PD-1 antibody treatment was recently approved for recurrent and metastatic cases but to date, response rates remain lower than 25%. Therefore, the investigation of the immunological tumor microenvironment and the identification of novel immunotherapeutic targets in HNSCC is of paramount importance. In our study, we used tissue samples of n = 116 HNSCC patients for the immunohistochemical detection of the intratumoral and peritumoral expression of T cell exhaustion markers (PD-1, LAG-3, TIM-3) on tumor infiltration leukocytes (TIL), as well as the expression level of stromal senescence markers (IL-8, MMP-3) on tumor-associated fibroblasts. The clinical parameter of the vitamin D serum status as well as the histopathological HPV infection status of the tumor was correlated with the expression rates of the biomarkers and the overall patient survival. An increased peritumoral and intratumoral expression of the biomarkers PD-1 and TIM-3 significantly correlated with improved overall patient survival. A high peritumoral expression of LAG-3 correlated with better overall survival. A positive HPV tumor status correlated with a significantly elevated expression of PD-1 and TIM-3. Biomarkers of stromal senescence showed no influence on the patient outcome. However, the vitamin D serum status showed no influence on patient outcomes or biomarker expressions. Our study identified PD-1, LAG-3, and TIM-3 as promising targets of a therapeutic strategy targeting the tumor microenvironment in HNSCC, particularly among HPV-positive patients, where a higher expression of these checkpoints correlated with an improved overall survival. These findings support the potential of antibodies targeting these immune checkpoints to enhance treatment efficacy, especially in the context of bispecific targeting.

Quercetin mitigates iron-induced cell death in chicken granulosa cell

BackgroundGranulosa cell (GC) apoptosis, ferroptosis, and other programmed cell death processes are markers of follicular aging. Quercetin has been shown to reduce ferroptosis, however, its effects on ferroptosis in poultry remains unexplored. Our preliminary study identified ferroptosis in aging ovaries. Therefore, in the present study, 540-day-old Mountain Plum-blossom chickens were fed with quercetin supplementation at varying doses (0.2, 0.4, and 0.6 g/kg), and examined its molecular effects on GC ferroptosis using an in vitro Erastin-induced model.ResultsThe results showed that quercetin supplementation significantly increased egg production, which confirmed its potential to alleviate ferroptosis in chicken ovarian tissue. The in vitro experiment revealed that quercetin and Fer-1 (positive control) mitigated Erastin-induced ferroptosis in GCs. Further, transcriptome analysis revealed that quercetin modulated key genes such as acyl-CoA synthetase long-chain family member 4 (ACSL4), solute carrier family 7 member 11 (SLC7A11), and transferrin receptor (TFRC), involved in ferroptosis regulation. The results further showed that quercetin also reduced Erastin-induced apoptosis and inflammation by modulating the expression of genes and proteins related to apoptosis and inflammatory factors (NF-κB, TNF-α, IL-6, and IL-10).ConclusionTaken together, the results showed that quercetin improves egg production performance in chickens and mitigates ovarian ferroptosis in aging hens, and inhibits Erastin-induced ferroptosis, inflammation, and apoptosis in GCs. These findings revealed the protective role of quercetin in poultry ovarian tissue and its cellular mechanisms against detrimental factors in poultry production.Graphical

GDF-15 as a proxy for epigenetic aging: associations with biological age markers, and physical function

Growth differentiation factor 15 (GDF-15) has emerged as a significant biomarker of aging, linked to various physiological and pathological processes. This study investigates circulating GDF-15 levels in a cohort of healthy individuals from the Balearic Islands, exploring its associations with biological age markers, including multiple DNA methylation (DNAm) clocks, physical performance, and other age-related biomarkers. Seventy-two participants were assessed for general health, body composition, and physical function, with GDF-15 levels quantified using ELISA. Our results indicate that GDF-15 levels significantly increase with age, particularly in individuals over 60. Strong positive correlations were observed between GDF-15 levels and DNAm GrimAge, DNAm PhenoAge, Hannum, and Zhang clocks, suggesting that GDF-15 could serve as a proxy for epigenetic aging. Additionally, GDF-15 levels were linked to markers of impaired glycemic control, systemic inflammation, and physical decline, including decreased lung function and grip strength, especially in men. These findings highlight the use of GDF-15 as a biomarker for aging and age-related functional decline. Given that GDF-15 is easier to measure than DNA methylation, it has the potential to be more readily implemented in clinical settings for broader health assessment and management.

Temporal Changes Toward Cellular Senescence in Rat Dental Pulp Stem Cells Induced by Long-Term In Vitro Culture

Rat dental pulp stem cells (DPSCs) can be used to elucidate mesenchymal stem cell (MSC) applications in regenerative medicine. However, information on rat DPSCs during long-term passage, which could lead to replicative senescence, is limited. In this study, we investigated the phenotypic changes in DPSCs after 3–26 passages (3P–26P). The results show that cell morphology and nuclear size increase proportionally with passage number. The phosphorylated histone H2A.X (γ-H2A.X) positive cells (indicating DNA damage) increased significantly earlier than the 4-Hydroxynonenal (4-HNE) stained cells (indicating an abundance of intracellular reactive oxygen species). Compared to the cells subjected to 3P and 5P, the cells subjected to 15P showed reduced proliferation despite being positive for Ki67. Furthermore, cell growth was completely arrested after 26P. The senescence markers, senescence-associated β-galactosidase (SA-β-gal) and p16, exhibited similar expression patterns that were not correlated with those of p21 and urokinase-type plasminogen activator receptor (uPAR). Nearly all cells expressed SA-β-gal and p16 after 26P, whereas only half expressed p21 and uPAR. These results will contribute to understanding the characteristics of DPSCs toward replicative senescence, which are applicable to elucidate mechanisms related to regenerative medicine and stem cell aging.

Senolytic cocktail dasatinib and quercetin attenuates chronic high altitude hypoxia associated bone loss in mice

Chronic high-altitude hypoxia (CHH) induces irreversible abnormalities in various organisms. Emerging evidence indicates that CHH markedly suppresses bone mass and bone strength. Targeting senescent cells and the consequent senescence-associated secretory phenotype (SASP) with senolytics is a recently developed novel therapy for multiple age-related diseases. The combination of dasatinib and quercetin (DQ) has been proven to selectively target senescent cells and attenuate SASP in multiple tissues. In this study, experimental mice were subjected to an environment simulating 5,000 m above sea level for 8 weeks to induce CHH conditions. Our results indicated that DQ supplementation was well-tolerated with negligible toxicity. In vivo, DQ prevented reductions in BMD and BMC and improved bone microarchitecture against CHH-induced changes. Biomechanical testing demonstrated that DQ significantly improved the mechanical properties of femoral bones in CHH-exposed mice. Furthermore, DQ mitigated senescence in LepR + BMSCs and decreased the population of senescent cells, as evidenced by reduced senescence markers and SA-β-Gal staining. An analysis of serum and bone marrow aspirates showed that DQ treatment preserved angiogenic and osteogenic coupling in the bone marrow microenvironment by maintaining type H vessels and angiogenic growth factors. The results suggest that DQ has significant anti-senescence effects on BMSCs and a positive impact on the bone marrow microenvironment, supporting its clinical investigation as a therapeutic agent for CHH-related osteoporosis.

Senescence and Stress Signaling Pathways in Corneal Cells After Nitrogen Mustard Injury.

Mustard gas keratopathy (MGK), a complication of exposure to sulfur mustard, is a blinding ocular surface disease involving key cellular pathways, including apoptosis, oxidative stress, and inflammation. Recent studies indicate that cellular senescence contributes to the pathophysiology of mustard gas toxicity. This study aimed to assess senescence and stress-related pathways-particularly mitogen-activated protein kinase (MAPK) signaling-in nitrogen mustard (NM)-induced corneal injury. In vitro, primary human corneal epithelial (P-HCECs), primary human corneal mesenchymal stromal cells (hcMSCs), and human corneal-limbal epithelial cell (HCLE) lines were exposed to varying concentrations of NM. The results demonstrated a dose-dependent increase in cellular senescence, characterized by reduced Ki67 expression, elevated p16, and p21 mRNA levels, as well as activation of the MAPK pathway activation. Treatment with a selective p38-MAPK inhibitor significantly reduced senescence markers and improved cell proliferation following exposure to NM. Overall, these studies indicate that NM exposure triggers cellular senescence and stress-related MAPK signaling, while p38-MAPK inhibition mitigates these effects, suggesting a potential therapeutic strategy.

DNA-methylation age and accelerated epigenetic aging in blood as a tumor marker for predicting breast cancer susceptibility.

DNA methylation (DNAm)-based marker of aging, referred to as 'epigenetic age' or 'DNAm age' is a highly accurate multi-tissue biomarker for aging, associated with age-related disease risk, including cancer. Breast cancer (BC), an age-associated disease, is associated with older DNAm age and epigenetic age acceleration (age accel) at tissue levels. But this raises a question on the predictability of DNAm age/age accel in BC development, emphasizing the importance of studying DNAm age in pre-diagnostic peripheral blood (PB) in BC etiology and prevention. We included postmenopausal women from the largest study cohort and prospectively investigated BC development with their pre-diagnostic DNAm in PB leukocytes (PBLs). We estimated Horvath's pan-tissue DNAm age and investigated whether DNAm age/age accel highly correlates with risk for developing subtype-specific BC and to what degree the risk is modified by hormones and lifestyle factors. DNAm age in PBLs was tightly correlated with age in this age range, and older DNAm age and epigenetic age accel were significantly associated with risk for developing overall BC and luminal subtypes. Of note, in women with bilateral oophorectomy before natural menopause experiencing shorter lifetime estrogen exposure than those with natural menopause, epigenetic age accel substantially influenced BC development, independent of obesity status and exogeneous estrogen use. Our findings contribute to better understanding of biologic aging processes that mediate BC carcinogenesis, detecting a non-invasive epigenetic aging marker that better reflects BC development, and ultimately identifying the elderly with high risk who can benefit from epigenetically targeted preventive interventions.

Design of a Magnetic Nanoplatform Based on CD26 Targeting and HSP90 Inhibition for Apoptosis and Ferroptosis-Mediated Elimination of Senescent Cells.

The accumulation of senescent cells, a hallmark of aging and age-related diseases, is also considered as a side effect of anticancer therapies, promoting drug resistance and leading to treatment failure. The use of senolytics, selective inducers of cell death in senescent cells, is a promising pharmacological antiaging and anticancer approach. However, more studies are needed to overcome the limitations of first-generation senolytics by the design of targeted senolytics and nanosenolytics and the validation of their usefulness in biological systems. In the present study, we have designed a nanoplatform composed of iron oxide nanoparticles functionalized with an antibody against a cell surface marker of senescent cells (CD26), and loaded with the senolytic drug HSP90 inhibitor 17-DMAG (MNP@CD26@17D). We have documented its action against oxidative stress-induced senescent human fibroblasts, WI-38 and BJ cells, and anticancer drug-induced senescent cutaneous squamous cell carcinoma A431 cells, demonstrating for the first time that CD26 is a valid marker of senescence in cancer cells. A dual response to MNP@CD26@17D stimulation in senescent cells was revealed, namely, apoptosis-based early response (2 h treatment) and ferroptosis-based late response (24 h treatment). MNP@CD26@17D-mediated ferroptosis might be executed by ferritinophagy as judged by elevated levels of the ferritinophagy marker NCOA4 and a decreased pool of ferritin. As 24 h treatment with MNP@CD26@17D did not induce hemolysis in human erythrocytes in vitro, this newly designed nanoplatform could be considered as an optimal multifunctional tool to target and eliminate senescent cells of skin origin, overcoming their apoptosis resistance.

Induction of Early Pulmonary Senescence in Experimental Sepsis.

Background: Sepsis continues to pose a significant threat to human life and represents a substantial financial burden. In addition to replicative stress resulting from telomeric loss, recent studies have identified multiple factors contributing to cell cycle arrest. Furthermore, our understanding of pathways associated with cellular senescence, such as CD47-mediated suppression of efferocytosis, has expanded. However, beyond in vitro experiments, the impact of cell stress during complex systemic illnesses, including sepsis, remains poorly understood. Consequently, we conducted an investigation into molecular alterations related to senescence-associated pulmonary mechanisms during experimental non-pulmonary sepsis.Methods: Male C57BL/6JRj mice were anesthetized and subjected to either control conditions (sham) or cecal ligation and puncture (CLP) to induce sepsis. 24 h or 7 d after CLP, animals were sacrificed and blood, bronchoalveolar fluids and lungs were harvested and analyzed for morphological and biochemical changes.Results: Histological damage in pulmonary tissue, as well as increases in plasma levels of surfactant protein D, indicated development of alveolar-focused acute lung injury after CLP. Additionally, we observed a significant upregulation of the CD47-QPCTL-SHP-1-axis in lungs of septic mice. Whereas the expression of p16, a marker primarily indicating manifested forms of senescence, was decreased after CLP, the early marker of cellular senescence, p21, was increased in the lungs during sepsis. Later, at 7 d after CLP, pulmonary expression of CD47 and QPCTL-1 was decreased, whereas SHP-1 was significantly enhanced.Conclusion: Our findings suggest an activation of senescent-associated pathways during experimental sepsis. However, expanding the experiments to other organ systems and in vivo long-term models are necessary to further evaluate the sustained mechanisms and immunopathophysiological consequences of cellular senescence triggered by septic organ injury.

The prospective association of cellular markers of biological aging with menopause in the Coronary Artery Risk Development in Young Adults Study.

Evidence from cross-sectional studies mainly among postmenopausal women suggests that biological aging is associated with reproductive senescence. We evaluated the prospective association of cellular markers of biological aging measured during the premenopausal period, and changes in these markers, with age at menopause. We studied 583 premenopausal women (39% Black) from the Coronary Artery Risk Development in Young Adults Study who had data on biological aging markers in 2000-2001 and reached menopause by 2020-2021. Linear regression models were used to evaluate the association of telomere length, mitochondrial DNA copy number, intrinsic or extrinsic epigenetic age acceleration, and PhenoAge or GrimAge acceleration with age at menopause. The mean age at baseline was 41.2 ± 3.3 years, with the mean age at menopause being 49.1 (median, 50) years. About one in five women had surgical menopause. In chronological age-adjusted models, only baseline GrimAge acceleration was associated with age at menopause; women whose epigenetic age was older than their chronological age reached menopause at 0.12 years (~6 weeks) earlier compared with women with equal epigenetic and chronological age (β = -0.123; 95% CI, -0.224 to -0.022; P = 0.018). However, this association was not statistically significant after adjustment for sociodemographic, behavior/lifestyle, and metabolic factors. Similar results were observed when changes in these biological aging markers were evaluated. The same associations were observed in analyses limited to women who reached natural menopause. Sociodemographic, behavior/lifestyle, and metabolic factors remain comparable, if not more robust predictors of the age at menopause compared with cellular measures of biological age.

Perceived age estimation from facial image and demographic data in young and middle-aged South Korean adults

Biological age is an indicator of whether an individual is experiencing rapid, slowing, or normal aging. Perceived age is highly correlated with biological age, which reflects health appraisal and is often used as a clinical marker of aging. Perceived age has been reported as an important indicator of biological age and general health status, not only in older adult populations but also in young and middle-aged adults. However, there is a lack of objective methods for quantifying perceived age in these younger age groups. Thus, this study aimed to propose a novel perceived age estimation algorithm to meet the need for an objective method to predict perceived age. This cross-sectional study included 609 healthy men and 1388 healthy women (29.02–57.91 years, average 44.4 years) from 2017 to 2019 using data from the Korean Medicine Daejeon Citizen Cohort Study. The proposed algorithm comprised two steps. First, the initial predicted perceived age was estimated from facial images using a convolutional neural network (CNN) ensemble model. Then, the final perceived age was estimated using regression from the chronological age, sex, BMI, and initial predicted perceived age obtained in the first step. Better performance results were obtained by model averaging and model stacking generated from various basic regression models. The averaging models of Lasso, XGBoost, and CatBoost showed a mean absolute error of 2.2944, indicating that this algorithm can be used as a screening method for general health status in the population.

Yoga-based lifestyle intervention for healthy ageing in older adults: a two-armed, waitlist randomized controlled trial with multiple primary outcomes.

Yoga-based clinical research has shown considerable promise in varied ageing-related health outcomes in older adults. However, robust frameworks have yet to be used in intervention research to endorse yoga as a healthy ageing intervention to test the multidimensional construct of healthy ageing. This was an assessor-masked, randomized controlled trial conducted among 258 sedentary, community-dwelling older adults aged 60-80years, randomly allocated to 26-week yoga-based intervention (YBI) (n = 132) or waitlist control (WLC) (n = 126). The effectiveness of YBI was assessed through two separate global statistical tests, generalized estimating equations and rank sum-based test, against a comprehensive healthy aging panel comprised of ten markers representing the domains of physiological and metabolic, cognitive, physical capability, psychological, and social well-being. The secondary outcomes were individual primary marker scores, Klotho, inflammatory markers, and auxiliary blood markers. We could establish the healthy aging effect of the 26-week YBI over WLC using two models of global statistical test (GEE, β = 0.29; 95% CI = 0.20 to 0.38, p < 0.001), and rank sum-based test (β = 0.28, 95% CI = 0.19 to 0.36, p < 0.001). There were also significant improvements in direction of benefit at individual levels of all the aging markers. Exploratory evaluation with adopted indices from contemporary clinical trials also validated the potential of YBI for healthy aging; HATICE adapted composite score (mean difference = - 0.18; 95% CI = - 0.26 to - 0.09, p < 0.001) and healthy ageing index (mean difference = - 0.33; 95% CI = - 0.63 to - 0.02, p = 0.03). The global effect of YBI across multiple ageing-related outcomes provides a proof of concept for further large-scale validation. The findings hold a great translational value given the accelerated pace of population aging across the globe. Trial registration: CTRI/2021/02/031373.

Butyrate modulates gut microbiota and anti-inflammatory response in attenuating cisplatin-induced kidney injury.

In our previous research, we reported that administering probiotics Lactobacillus reuteri and Clostridium butyricum (LCs) before cisplatin treatment effectively modifies structures of the gut microbiota and restore ecological balance and significantly increases butyrate levels, a process closely associated with reducing cisplatin-induced nephrotoxicity. This study aims to investigate further whether the elevation of metabolite butyrate in the gut, promoted by probiotics LCs, can effectively mitigate the nephrotoxic effects of cisplatin and the progression of renal senescence in rats. Results show that butyrate administration significantly improved kidney function and decreased renal fibrosis in a dose-dependent manner compared to the cisplatin group. Its effects were associated with reductions in inflammatory responses, evidenced by decreased levels of key inflammatory markers, including KIM-1, MPO, NOX2, F4/80, and TGF-β1, alongside increased production of the anti-inflammatory cytokine IL-10. Furthermore, the butyrate intervention ameliorated cisplatin-induced gut microbiota dysbiosis, preserving the structure and diversity of healthy microbial communities. Specifically, we observed a decrease in the abundance of Escherichia_Shigella and Blautia, alongside an increase in the abundance of the butyrate-producing genus Roseburia. Notably, Escherichia_Shigella exhibited a positive correlation with the pro-inflammatory factor MPO, while displaying a negative correlation with the anti-inflammatory cytokine IL-10. Butyrate also attenuated the cisplatin-induced expression of senescence markers p21 and p16 in kidney tissue. It alleviated the cisplatin-increased senescence-associated beta-galactosidase activity and reactive oxygen species production in SV40 MES-13 cells. These results indicate that butyrate, derived from the gut microbiota, may exert a protective effect against cisplatin-induced kidney damage by regulating microbiota balance and anti-inflammatory effects.

White matter hyperintensities are independently associated with systemic vascular aging and cerebrovascular dysfunction.

In the Oxford Haemodynamic Adaptation to Reduce Pulsatility trial (OxHARP), sildenafil increased cerebrovascular reactivity but did not reduce cerebral pulsatility, a marker of vascular aging. This analysis of OxHARP tested whether these potentially causative mechanisms were independently associated with severity of white matter hyperintensities (WMH). To determine independence of the relationship between severity of white matter hyperintensities with both cerebral pulsatility and cerebrovascular reactivity in the same population. OxHARP was a double-blind, randomised, placebo-controlled, crossover trial of phosphodiesterase inhibitors in patients with mild-moderate WMH and previous minor cerebrovascular events. It determined effects on cerebrovascular pulsatility and reactivity on transcranial ultrasound, and reactivity on MRI. Associations were determined between baseline ultrasound measures, and averaged MRI measures across follow-up, with severity of WMH on clinical imaging (Fazekas or modified Blennow scores) and WMH volume in the MRI substudy, by ordinal and linear regression. In 75/75 patients (median 70 years, 78% male), cerebral pulsatility was associated with age (p<0.001) whereas reactivity on ultrasound was not (p=0.29). Severity of WMH in all participants was independently associated with decreased cerebrovascular reactivity and increased cerebral pulsatility (pulsatility p=0.016; reactivity p=0.03), with a trend to a synergistic interaction (p=0.075). Reactivity on ultrasound was still associated with WMH after further adjustment for age (p=0.017) but pulsatility was not (p=0.31). Volume of WMH in the MRI substudy was also independently associated with both markers on ultrasound (pulsatility p=0.005; reactivity p=0.029), and was associated with reduced cerebrovascular reactivity within WMH on MRI (p<0.0001). WMH are independently associated with cerebral pulsatility and reactivity, representing complementary potential disease mechanisms and treatment targets. clinicaltrials.org: https://classic.clinicaltrials.gov/ct2/show/NCT03855332.

Molecular Aspects of Loss of Y-linked Proteins and Their Potential Applications in Cell Biology

Loss of proteins linked to Y chromosome (LOY) is a biomarker in human that is typically found in male blood samples. In healthy males, its frequency often rises with age. Additionally, it has lately been linked to numerous illnesses, including cancer with significantly high prevalence. A healthy male development depends on the Y chromosome and associated proteins. The deletion of this chromosome’s proteins or even its LOY variant may have effects on the male body. These proteins serve purposes beyond those of the male reproductive system. Paternity testing, ancestry research, and sexual assault investigations are just a few of the forensic situations where Y-linked protein analyses are frequently used. Due to its connection to the aging process, LOY detection has the benefit of being a biological age biomarker. The possibility of using LOY as a biomarker brings to light the need to define the molecular process underlying its occurrence and its potential applications in both health and forensic studies. Humans frequently experience LOY, a non-physiological post-zygotic molecular change that mostly affects male blood cells[Forsberg, 2017; Forsberg et al., 2017]. It is a natural part of aging and has been related to a number of illnesses, including as Alzheimer’s, Autoimmune disorders, Schizophrenia, Cardiovascular problems, and different malignancies[Holmes et al., 1985;Persanietal., 2012; Dumanskiet al., 2016; Forsberg, 2017; Forsberg et al., 2017; Haitjemaet al., 2017;]. It is possible to think about LOY as a biological age marker and a biomarker that predicts male age-related disorders [Dumanskiet al., 2016].However, LOY analysis might obstruct the forensic examination of male samples while also being helpful in forensic investigations by offering important details.

Exposure to multiple metals and leukocyte telomere length in children and adolescents: The mediating effect of thyroid hormones

Exposure to metals has been related to alterations in leukocyte telomere length (LTL), an aging marker. However, the evidence regarding this relationship in children and adolescents, as well as the underlying mechanisms, remains unclear. Therefore, we aimed to explore the individual and mixture effects of metals on LTL in children and adolescents and to assess the mediating role of thyroid hormones and the modifying effect of a healthy lifestyle. In a cross-sectional study performed in Liuzhou, China, we assessed 5 serum thyroid hormones, 18 urinary metals, and LTL among 1050 children and adolescents aged 6–18 years. We employed multivariate linear regression and weighted quantile sum (WQS) regression to assess the associations of urinary metals with LTL in children and adolescents. Mediation analyses were conducted to explore the effects of thyroid hormones on these relationships. Urinary cobalt (Co), nickel (Ni), strontium (Sr), mercury (Hg), cadmium (Cd), and thallium (Tl) were related to a shorter LTL in children and adolescents. The WQS regression showed a 6.31% (95% CI: −8.76%, −3.79%) decrease in LTL per quartile increase in the WQS index, and identified Ni (23.3%), Sr (21.7%), and Tl (18.0%) as the major contributors. Mediation analyses showed that triiodothyronine (T3) mediated 14.8% and 8.1% of the associations of urinary Sr and Hg with LTL, respectively, and suppressed 9.3% of the association with urinary Co. Furthermore, the inverse associations of Sr, Cd, and Tl with LTL were attenuated among participants who adopted a healthy lifestyle. Our findings suggested that exposure to Co, Ni, Sr, Cd, Hg, Tl, and their mixture were related to a shorter LTL in children and adolescents, potentially mediated by thyroid hormones. Additionally, adopting a healthy lifestyle may alleviate these adverse effects.

Inhibition of the E3 ligase UBR5 stabilizes TERT and protects vascular organoids from oxidative stress

BackgroundExcessive oxidative stress is known to cause endothelial dysfunction and drive cardiovascular diseases (CVD). While telomerase reverse transcriptase (TERT) shows protective effects against oxidative stress in rodents and is associated to human flow-mediated dilation in CVD, its regulatory mechanisms in human vascular systems under pathological oxidative stress require further investigation.MethodsHuman induced pluripotent stem cells (hiPSCs) were used to create vascular organoids (VOs). These VOs and human umbilical vein endothelial cells (HUVECs) were subjected to oxidative stress through both hydrogen peroxide (H2O2) and oxidized low-density lipoprotein (oxLDL) models. The effects of TERT overexpression by inhibition of the ubiquitin protein ligase E3 component N-recognin 5 (UBR5) on reactive oxygen species (ROS)-induced vascular injury and cellular senescence were assessed using neovascular sprouting assays, senescence-associated β-galactosidase (SA-β-Gal) staining, and senescence-associated secretory phenotype (SASP) assays.ResultsROS significantly impaired VO development and endothelial progenitor cell (EPC) angiogenesis, evidenced by reduced neovascular sprouting and increased senescence markers, including elevated SA-β-Gal activity and SASP-related cytokine levels. Overexpression of TERT counteracted these effects, restoring VO development and EPC function. Immunoprecipitation-mass spectrometry identified UBR5 as a critical TERT regulator, facilitating its degradation. Inhibition of UBR5 stabilized TERT, improving VO angiogenic capacity, and reducing SA-β-Gal activity and SASP cytokine levels.ConclusionsInhibiting UBR5 stabilizes TERT, which preserves EPC angiogenic capacity, reduces VO impairment, and delays endothelial cell senescence under oxidative stress. These findings highlight the potential of targeting UBR5 to enhance vascular health in oxidative stress-related conditions.Graphical

Prevalence of metabolic dysfunction-associated steatotic liver disease (MASLD) and its association with arterial stiffness in adolescents: Results from the EVA4YOU study.

To determine the prevalence of metabolic dysfunction-associated steatotic liver disease (MASLD) among Western Austrian adolescents and its association with arterial stiffness as a marker of early vascular ageing. In the cross-sectional Early Vascular Ageing in the YOUth study, liver fat content was assessed by controlled attenuation parameter (CAP) using signals acquired by FibroScan (Echosense, Paris, France) in 14- to 19-year-old Austrian adolescents. Arterial stiffness was determined by carotid-femoral pulse wave velocity (cfPWV) and cardiovascular risk factors by a face-to-face interview, physical examination, and fasting blood analyses. Linear regression models and one-way analysis of variance were performed to analyze the association between liver fat content, MASLD and cfPWV. A total of 1292 study participants (65.2% female) aged 17.2 ± 1.3 years were included. MASLD was detected in 62 (4.8%) adolescents. CAP value showed a significant association with cfPWV in the unadjusted model (p < 0.001) but lost its significant influence in the multivariable model after adjusting for sex, age and cardiovascular risk criteria (increased BMI or waist circumference, impaired glucose metabolism, elevated blood pressure, elevated plasma triglycerides, and decreased HDL cholesterol; p = 0.540). In the analysis of variance, a significant increase in cfPWV was observed in adolescents with any of the five cardiovascular risk criteria for MASLD (p < 0.001), but not with the additional presence of steatotic liver disease (p = 0.291). In our adolescent cohort, liver fat content and MASLD were not found to be independent predictors for early vascular ageing. Nevertheless, the determination of liver fat content can be a useful tool to identify adolescents at high risk for cardiovascular disease and metabolic syndrome.

Blood based immune biomarkers associated with clinical frailty scale in older patients with melanoma receiving checkpoint inhibitor immunotherapy

IntroductionImmunotherapy with checkpoint inhibition (ICI) is increasingly prescribed to older patients with cancer. High age, especially in combination with frailty, has been associated to immune senescence, which is the age-related decline in immune function, thereby possibly hindering ICI effectiveness. This cross-sectional study aimed to assess whether blood cell immune senescence markers are associated with age, frailty and response to anti-PD-1 treatment in older patients with metastatic melanoma.MethodsIn a prospective observational study, sixty patients with stage IIIC or IV melanoma undergoing anti-PD1 treatment were categorized into young (< 65 years; n = 22), old (> 65 years) without frailty (n = 19), and old with frailty (n = 19). In-depth immune cell phenotyping was performed in baseline blood samples (prior to treatment) using multispectral flow cytometry and compared between groups and with immunotherapy treatment response. Antigen-presenting cell capacity was evaluated using mixed lymphocyte reaction and T cell proliferative potential was assessed using PHA proliferation assay.ResultsNo significant differences in treatment response rates were observed across age groups. Older patients, irrespective of frailty, showed lower levels of naïve CD8 + T cells, with the old and frail group also exhibiting reduced tissue-resident effector memory CD8 + T cells and CD8 + mucosal associated invariant T (MAIT) cells. These differences were not associated with treatment outcomes. T cell proliferation and antigen-presenting cell capacities did not differ across groups.ConclusionSeveral ageing and frailty associated changes were detected among circulating immune cells in blood but were not associated with response to immunotherapy in our study. While these findings suggest that the level of frailty and ageing may not necessarily preclude the efficacy of ICI therapy, further investigation is needed to fully understand the impact of frailty and ageing on immunotherapy.

Research on the Correlation Between Skin Elasticity Evaluation Parameters and Age

This study aims to explore the impact of aging on skin elasticity, a key biomechanical property that diminishes over time, using the Cutometer to assess viscoelastic parameters. Methods: Researchers analyzed 22 viscoelastic parameters from the facial skin of 60 women aged 18 to 70. Key Results: The findings indicate that relaxation phase parameters, particularly biological elasticity (R7), exhibited the strongest negative correlation with age (r = −0.62), signifying a notable decline in biological elasticity as women age. In contrast, maximum deformation during the first cycle (R0) and the total area under the upper curve after 10 cycles of deformation (F4) also showed significant negative correlations with age (r = −0.47, r = −0.48), suggesting that younger skin typically presents higher values. These correlations raise questions regarding practical applications, as the presence of moisturizers and emollients may alter the stratum corneum’s properties, thus impacting these measurements. Additionally, the ratio of delayed deformation to instantaneous deformation (R6) demonstrated a positive correlation with age (r = 0.49), indicating its potential as a marker for skin aging. Conclusions: This study highlights the critical role of relaxation phase parameters in accurately reflecting skin elasticity changes associated with aging. The results offer valuable insights for evaluating cosmetic efficacy, reinforcing the need for a nuanced understanding of how various parameters interact. These findings contribute to the ongoing development of more effective anti-aging treatments and products.