Effect of Advanced Glycation end Products (AGEs) on Sperm Parameters and Function in C57Bl/6 Mice

A Comparative Study on the Adverse Effects of a High-Fat Diet on Testicular Tissue: Exploring the Difference Between Obesity-Prone and Obesity-Resistant Mice

The impact of a High-Fat Diet (HFD) on male reproductive health is characterized by fertility disorders in obese males, attributed to oxidative stress, endocrine suppression, and upregulation of pro-apoptotic elements. It remains unclear if observed disorders are primarily linked to obesity or if HFD, independently of obesity, induces similar effects in resistant cases. To explore this subject, immature male mice were divided into control (received a normal diet) and experimental groups. After receiving 16 weeks on the HFD regimen (45%, 4.8 kcal/g), the mice were further categorized into control, obesity-prone (HFD-O, weighting 1.4 times higher than control mice), and obesity-resistant (HFD-OR) groups. The histological characteristics, testicular and serum total antioxidant capacity (TAC), testicular malondialdehyde (MDA), glutathione (GSH), glutathione disulfide (GSSG), lactate, lactate dehydrogenase (LDL), the expression levels of Bcl-2, BAX, and p53 were analyzed. Current study revealed comparable phenotypes in both HFD-received groups, including histological changes, the relative ratio of TAC to MDA, the GSH to GSSG ratio, serum testosterone levels, lactate and LDH content, as well as several parameters related to sperm quality. Despite these similarities, the obesity-prone (HFD-O) group exhibited increased mRNA and protein levels of BAX and p53, while no significant changes were observed in the obesity-resistant (HFD-OR) mice. In conclusion, in obesity-prone condition, HFD disrupted spermatogenesis through metabolic failure and redox imbalance, which in turn increased pro-apoptotic proteins expression. However, regardless of apoptosis, in obesity-resistant condition, HFD disrupted metabolic processes and endocrine capacity in testicular tissue, hindering spermatogenesis through interference with GSH/GSSG and TAC/MDA relative balances.

Tetrahydrocurcumin alleviates di-(2-ethylhexyl) phthalate-induced adipose tissue dysfunction and testicular toxicity in adult mice: possible involvement of adiponectin-adipoR signaling in the testis

Widespread exposure to endocrine disruptors is associated with metabolic dysfunction and reproductive toxicity. Tetrahydrocurcumin (THC) has attracted attention as it offers protection against obesity and metabolic disorders due to its potent antioxidative and diverse biological properties but its influence and underlying mechanism of action on adipose tissue function and DEHP-induced testicular injury remain unknown. Our results showed that THC (100 mg kg-1 day-1) administration for 27 weeks enlarged adipocytes while attenuating macrophage infiltration and IL-6 expression in the adipose tissue of male C57BL/6J mice exposed to 5 mg kg-1 day-1 of DEHP. Moreover, THC ameliorated DEHP-induced deregulation of adiponectin but not leptin. DEHP caused testicular histological damage, spermatogenesis impairment, apoptosis, inflammation, and AGE, which were improved by THC. THC treatment elevated Nrf2/HO-1 and decreased Glut1 in interstitial Leydig cells, which may contribute to its beneficial effects on the testis. Our results further demonstrated that THC also ameliorated circulating adiponectin and testicular adipoR1-AMPK signaling, partially accounting for the improvement of DEHP-caused testicular dysfunction. The finding of this study revealed that THC is a promising candidate for improving adipose and testicular dysfunction caused by DEHP.

Natural polysaccharides: The potential biomacromolecules for treating diabetes and its complications via AGEs-RAGE-oxidative stress axis

Diabetes mellitus, a chronic metabolic disorder, poses a significantly public health challenge. Extensive research highlights that contemporary dietary patterns, characterized by excessive intake of sugar, fat, and protein, are major contributors to the onset and progression of diabetes. The central element to this process is the aberrant activation of the advanced glycation end products (AGEs) - receptor for AGEs (RAGE) - oxidative stress axis, which plays a pivotal role in disrupting normal carbohydrate metabolism. This pathway presents a critical target for developing interventions aimed at mitigating diabetes and its complications. In recent years, natural polysaccharides have emerged as promising agents in the prevention and treatment of diabetes, due to their ability to inhibit AGE formation, regulate RAGE expression, and modulate the AGEs-RAGE-oxidative stress axis. In this paper, we explore the pathogenic mechanism of this axis and review the therapeutic potential of natural polysaccharides in managing diabetes and its complications. Our goal is to provide new insights for the effective management of diabetes and its associated health challenges.

Membrane-bound receptor for advanced glycation end products (RAGE) is a stable biomarker of low-quality sperm

STUDY QUESTION

Does receptor for advanced glycation end products (RAGE) on the surface membrane of the sperm cell function as a biomarker of low-quality sperm?

SUMMARY ANSWER

Membrane-bound RAGE at a cellular level directly correlates with low sperm motility, high cell permeability, decreased mitochondrial function, DNA fragmentation, and higher levels of apoptosis.

WHAT IS KNOWN ALREADY

RAGE has previously been measured by ELISA in low-quality sperm in diabetic men and has been shown to correlate with DNA fragmentation (terminal deoxynucleotidyl transferase dUTP nick end labelling (TUNEL) assay).

STUDY DESIGN SIZE DURATION

Semen samples were recovered from 60 non-obese, non-diabetic and non-smoking subjects, washed with fresh media, and analysed directly or purified further by differential gradient centrifugation (DGC) or fractionated by direct swim-up before being analysed for sperm motility and molecular health parameters, including cell membrane permeability, cell death, mitochondrial membrane potential, DNA fragmentation, and RAGE protein expression.

PARTICIPANTS/MATERIALS SETTING METHODS

Sperm motility assessments were carried out by computer-assisted sperm analysis (CASA) on 1000 spermatozoa for washed samples and 300 spermatozoa for purified samples. Molecular sperm health parameters were evaluated using flow cytometry with the use of the following markers: DAPI for cell membrane permeability, Annexin V/DAPI for cell death (apoptosis and necrosis), MitoTracker® Red CMXRos for mitochondrial membrane potential, TUNEL assay for DNA fragmentation and 8-hydroxy-2-deoxyguanosine for identification of oxidative damage to sperm DNA, and contrasted to membrane-bound RAGE expression levels, which were evaluated using an anti-RAGE monoclonal mouse antibody.

MAIN RESULTS AND THE ROLE OF CHANCE

RAGE protein was shown to be present on the acrosomal and equatorial regions of sperm, with the levels of membrane bound receptor strongly correlating with poor sperm health across all parameters tested; motility (R 2 = 0.5441, P < 0.0001) and mitochondrial membrane potential (R 2 = 0.6181, P < 0.0001) being of particular note. The analysis was performed at a single cell level thereby removing confounding complications from soluble forms of the RAGE protein that can be found in seminal plasma. The expression of the RAGE protein was shown to be stable over time and its levels are therefore not subject to variation in sample handling or preparation time.

LARGE SCALE DATA

N/A.

LIMITATIONS REASONS FOR CAUTION

Inclusion criteria for this study were non-diabetic, non-obese and non-smoking participants to assess the distribution of RAGE expression in the general population, thereby excluding disease conditions that may increase RAGE expression in sperm or contribute to low sperm quality. The study does not address how RAGE expression may be affected in other patient subpopulations or disease states associated with male infertility. Sperm analysis by flow cytometry is not amenable to the study of males with a low sperm count.

WIDER IMPLICATIONS OF THE FINDINGS

Results of this study suggest that RAGE expression is a molecular maker of sperm cell health, which may be used for improvements in assisted reproduction through the removal of RAGE expressing sperm and facilitate in the diagnoses of unexplained infertility through its use as a biomarker of male infertility.

STUDY FUNDING/COMPETING INTERESTS

The study was funded by the Irish Research Council under the Government of Ireland Programme (GOIPG/2015/3729) and the Enterprise Ireland Innovation Partnership Programme (IP-2020-0952). All authors declare no competing interests.

Protective effects of alpha-lipoic acid and alagebrium chloride against testicular dysfunction induced by varicocele and advanced glycation end (AGE) - Rich diet in a rat mode

Heat stress from varicocele can heighten oxidative stress in the testes, impacting sperm function and male fertility. Antioxidant therapy is explored as a remedy for varicocele, while dietary factors like processed foods, sugar, and saturated fats correlate with male infertility. Advanced glycation end products (AGEs), generated through glycation processes, can provoke oxidative stress, inflammation, and adverse health consequences. Alpha-lipoic acid (ALA), a versatile antioxidant, may alleviate oxidative stress and counteract the impact of AGEs, potentially by enhancing glucose reabsorption. Alagebrium chloride (ALT711), an anti-AGE compound, exhibits promise in cardiovascular disease by disrupting AGE cross-links. This study investigates the effects of ALA and ALT-711 on testicular function in varicocele and AGEs animal models. Both AGE and varicocele were found to alter the natural trends, leading to abnormal patterns in sperm parameters, testicular functional tests, as well as the expression of CML, RAGE, and TNF-α proteins. However, the administration of ALA or ALT711 helped mitigate these effects. While ALA demonstrated a slightly greater overall benefit compared to ALT, the difference was not statistically significant.

Maternal nutrition and fetal imprinting of the male progeny

The global population as well as the demand for human food is rapidly growing worldwide, which necessitates improvement of efficiency in livestock operations. In this context, environmental factors during fetal and/or neonatal life have been observed to influence normal physical and physiological function of an individual during adulthood, and this phenomenon is called fetal or developmental programming. While numerous studies have reported the impact of maternal factors on development of the female progeny, limited information is available on the potential effects of fetal programming on reproductive function of the male offspring. Therefore, the objective for this review article was to focus on available literature regarding the impact of maternal factors, particularly maternal nutrition, on reproductive system of the male offspring. To this end, we highlighted developmental programming of the male offspring in domestic species (i.e., pig, cow and sheep) as well as laboratory species (i.e., mice and rat) during pregnancy and lactation. In this sense, we pointed out the effects of maternal nutrition on various functions of the male offspring including hypothalamic-pituitary axis, hormonal levels, testicular tissue and semen parameters.