Microbial approaches for pharmaceutical wastewater recycling and management for sustainable development: A multicomponent approach.

A microbial-driven approach for effluent treatment, recycling, and management of Pharmaceutical and Personal Care Products (PPCPs) has been undertaken to mitigate the menace of water contamination. Bioremediation processes are mainly considered the first preference in pharmaceutical wastewater recycling and management. PPCPs are reported as one of the primary sources of emerging contaminants in various water matrices, which raises concern and requires efficient management. Their widespread utilization, persistently high level, and resistance to breaking down make them one of the potentially dangerous compounds causing harm to the ecosystem. Continually increasing PPCPs level PPCPs contaminants in water bodies raised concern for human health as they can produce potential risks with harmful and untoward impacts on our health. PPCPs are composed of multiple diverse compounds used by humans and animals, which include biopharmaceuticals, vitamins and nutritional supplements, antibiotics, counter-prescription drugs, cosmetics products, and unused pharmaceutical products. Personal care products are found to be bioaccumulative, reduce water quality and potentially impact ecological health. However, continual exposure to PPCPs in aquatic organisms, impacts their endocrine function disruption, gene toxicity, and antibiotic resistance. Decreased water quality may result in an outbreak of various water-borne diseases, which could have acute or long-term health complications and may result in an outbreak of various water-borne diseases, which could have acute or long-term effects on public and community health. Polluted water consumption by humans and animals produces serious health hazards and increased susceptibility to water-borne diseases such as carcinogenic organic or inorganic contaminants and infectious pathogens present in water bodies. Many water resource recovery facilities working on various conventional and advanced methods involve the utilization of microbes for filtration and advanced oxidation processes. Therefore, there is an immense need for bioremediation techniques facilitated by mixed cultures of bacteria, algae, and other microbes that can be used as an alternative approach for removing pharmaceutical content from effluent. This review highlights the various sources of PPCPs and their impacts on soil and water bodies, resulting in bioaccumulation. Different techniques are utilized to detect PPCPs, and various control strategies imply controlling, recycling, and managing waste.

Food contact materials as possible endocrine disruptors for PPARs: a consensus scoring analysis.

Peroxisome proliferator-activated receptors (PPARs), with the α, ß/δ and γ isoforms, are nuclear receptors that control the expression of genes involved in glucose and lipids' metabolism and into inflammatory processes and play a central role in metabolic syndrome. PPARs are a particular class of nuclear receptors because of their larger and more flexible ligand-binding domain with a particular Y shape. As nuclear receptors, PPARs are sensitive to exposure to xenobiotic compounds, called endocrine disruptions, even at low concentrations that could alter their homeostasis. Among these, food contact materials (FCMs), like phthalates, are synthetic compounds able to migrate from packaging to food and represent a significant source of exposure because of the increased use of plastic in the packaging in the last years. Through multiple docking and consensus scoring, we can analyse the ligand-binding domain's chemical and physical features, understand the mechanism of activation and predict the interaction with possible endocrine disruptions with an evaluation of their effects.

Obesity, Dietary Patterns, and Hormonal Balance Modulation: Gender-Specific Impacts.

Understanding the intricate relationship between nutrition, hormonal balance, and gender-specific factors is crucial for developing targeted interventions to mitigate obesity-related endocrine disruptions and improve metabolic health. This narrative review examines the impact of various dietary patterns on hormonal regulation in both men and women, focusing on their effects on hormonal balance and metabolic health in the context of obesity. Calorie restriction, the Western diet, high-fat diets, low-CHO diets, plant-based diets, and the Mediterranean diet are analyzed in relation to their influence on obesity-related endocrine disruptions and metabolic health. Future research directions include investigating the specific mechanisms underlying dietary influences on hormonal regulation, addressing the gender-specific metabolic differences and body fat distribution, and exploring the dietary needs of individuals undergoing gender transition. Personalized dietary interventions tailored to individual metabolic and hormonal profiles are essential for optimizing health outcomes across the gender spectrum. By integrating gender-specific considerations into dietary recommendations, healthcare professionals can better support individuals in achieving optimal metabolic health and hormonal balance.

Development of in silico classification models for binding affinity to the glucocorticoid receptor.

The endocrine disrupting properties of chemicals acting through the glucocorticoid receptor (GR) have attracted considerable interest. Since there are few data for most chemicals on their endocrine properties in silico approaches seem to be the most appropriate tool for screening and prioritizing chemicals for planning further experiments. In this work, we developed classification models for binding affinity to the glucocorticoid receptor using the counterpropagation artificial neural network method. We considered two series of 142 and 182 compounds and their binding affinity to the glucocorticoid receptor as agonists and antagonists, respectively. The compounds belong to different chemical classes. The compounds were represented by a set of descriptors calculated with the DRAGON program. The clustering structure of sets was studied with standard principal component method. A weak separation between binders and non-binders was found. Another classification model was developed using the counterpropagation artificial neural network method (CPANN). The final classification models developed were well balanced and showed a high level of accuracy, with 85.7% of GR agonist and 78.9% of GR antagonist correctly assigned in leave-one-out cross-validation.

Effect of short-term intermittent exposure to waterborne estradiol on the reproductive physiology of the round goby (Neogobius melanostomus).

The objective of this study was to determine how the short-term exposure to a supraphysiological concentration of waterborne 17ß-estradiol (E2) influences on melatonin (Mel) and thyroxine (T4) concentrations in plasma and E2 and 11-ketotestosterone (11-KT) concentrations in plasma and gonads in both sexes of round goby (Neogobius melanostomus) during the pre-spawning, spawning, late spawning and non-spawning phases. The experimental protocol was based on short-term, repeated exposures of fish to a supraphysiological dose of waterborne E2. Mel level was unchanged on exposure to E2 during the investigated phases, and its role in determining a time frame for spawning in both sexes of round goby seems to be stable in those conditions. T4 and sex steroids (E2 and 11-KT) were sensitive to the exposure of E2, and those changes influence gonads by accelerating oocyte development, ovulation and regression and inhibiting spermatogenesis in this species. The results demonstrate that the physiological responses of fish in all investigated phases were altered over a short window of exposure, indicating that short-term exposure to a supraphysiological dose of E2 may impact fish in the wild. Furthermore, round goby can be recommended as a very suitable model for studying endocrine disruptors, which is sensitive to even short exposure to E2.

Sex-specific behavioral effects following developmental exposure to tetrabromobisphenol A (TBBPA) in Wistar rats.

Tetrabromobisphenol A (TBBPA) has become a ubiquitous indoor contaminant due to its widespread use as an additive flame retardant in consumer products. Reported evidence of endocrine disruption and accumulation of TBBPA in brain tissue has raised concerns regarding its potential effects on neurodevelopment and behavior. The goal of the present study was to examine the impact of developmental TBBPA exposure, across a wide range of doses, on sexually dimorphic non-reproductive behaviors in male and female Wistar rats. We first ran a pilot study using a single TBBPA dose hypothesized to produce behavioral effects. Wistar rat dams were orally exposed using cookie treats to 0 or 0.1 mg TBBPA/kg bw daily from gestational day (GD) 9 to postnatal day (PND) 21 to assess offspring (both sexes) activity and anxiety-related behaviors. Significant effects were evident in females, with exposure increasing activity levels. Thus, this dose was used as the lowest TBBPA dose in a subsequent, larger study conducted as part of a comprehensive assessment of TBBPA toxicity. Animals were exposed to 0, 0.1, 25, or 250 mg TBBPA/kg bw daily by oral gavage starting on GD 6 through PND 90 (dosed dams GD 6 - PND 21, dosed offspring PND 22 - PND 90). Significant behavioral findings were observed for male offspring, with increased anxiety-like behavior as the primary phenotype. These findings demonstrate that exposure to environmental contaminants, like TBBPA, can have sex-specific effects on behavior highlighting the vulnerability of the developing brain.

El efecto de los agroquímicos en la espermatogénesis / The effect of the agrochemicals in the spermatogenesis

Se relacionó la exposición ocupacional a agroquímicos con parámetros seminales vinculados con la espermatogénesis. En 104 muestras seminales de pacientes con infertilidad idiopática y 20 a 45 años de edad del Servicio de Reproducción Hospital Centenario (Rosario, Argentina), se efectuó espermograma y estudios funcionales según normas OMS (1999). Se agruparon en G1 (n=42) trabajadores expuestos a agroquímicos y G2 (n=62) hombres sin riesgo espermatogénico. La concentración espermática se determinó en cámara de Neubauer, con Papanicolaou se evaluó la concentración de células germinales y la morfología espermática. Se observó en concentración espermática (espermatozoides.10(6)/ml) G1: 21,1±7,1; G2: 41,6±9,2; morfología ( por ciento espermatozoides normales) G1: 5,2±1,3; G2: 8,2±3,6 y células germinales.10(6)/ml en G1: 0,91±0,51; G2: 0,32±0,21. La concentración espermática fue menor en G1, las alteraciones morfológicas y células germinales mayores en G1. Estos resultados indican que la exposición a agroquímicos altera la espermatogénesis y es un factor a considerar cuando se estudia infertilidad masculina.

The occupational exposition to agrochemicals was related with sperm parameters linked with spermatogenesis. In 104 semen samples of patients with idiopatic infertility of the Reproduction Service of Centenario Hospital (Rosario, Argentina), sperm study and functional tests according to WHO (1999) have been carried out. Two groups were formed: G1 (n=42) workers exposed to agrochemicals; G2 (n=62) men with no spermatogenic risk. The sperm concentration was determined in Neubauer camera, the concentration of germinal cells and the sperm morphology were evaluated with Papanicolaou. The results were: sperm concentration (spermatozoids 10(6)/ml) G1: 21.1 ± 7.1; G2: 41.6 ± 9.2; morphology ( percent normal spermatozoids) G1: 5.2 ± 1.3; G2: 8.2 ± 3.6; and germinal cells 10(6)/ml in G1: 0.91 ± 0.51; G2: 0.32 ± 0.21. The sperm concentration was lower in G1, major morphological changes and germinal cells in G1. This results show that the exposition to agrochemicals alters the spermatogenesis, it is a factor to consider in the male infertility.