Malachite green and leucomalachite green in fish: a global systematic review and meta-analysis.

Malachite green (MG), an antibiotic with antifungal activity, is illegally used in aquaculture. Given that this chemical is teratogenic and mutagenic, abstinence from intake seems to be a need for public safety. The goal of this systematic review and meta-analysis was to determine the global contamination of fishes by MG and its reduced metabolite, leucomalachite green (LMG), in a number of marine and farmed fish species. For literature published prior to January 2022, several databases (Web of Science, PubMed, and Scopus) were investigated. In total, 20 publications (10 countries, 724 samples) achieved the criteria for inclusion. The overall average MG and LMG concentrations were 0.48 (95% CI: 0.47, 0.49 µg kg-1) and 0.59 (95% CI: 0.39, 0.79 µg/kg-1), respectively. Eel (M. albus) 15.50 (95% CI: (14.39, 45.39 µg kg-1) and eel (A. anguilla) 4.46 (95% CI: 1.23, 7.69 µg kg-1) had the greatest contamination of MG and LMG, according to the effect size, respectively. Warm-water fish had a concentration of 2.591 (95% CI: 2.25, 2.93 µg kg-1) while cold-water fish had a concentration of 1.55 (95% CI: 0.25, 2.84 µg kg-1). Fish containing medium-fat level of 1.86 (95% CI: 1.27, 2.44 µg kg-1) and high-fat content of 1.10 (95% CI: 0.93, 1.26 µg kg-1) had accumulate MG and LMG in their tissues, respectively. As a result, total MG observed in countries including China, Iran, and the Netherlands was higher than authorized (2 µg kg-1). The toxicity of MG and LMG demands more monitoring, especially in countries where these chemicals' residues are significant.

Correlation between coenzyme Q10 content and the nutrient sensors in AKI induced by Hemiscorpius lepturus envenomation.

Introduction: Acute kidney injury (AKI) may have a negative effect on mitochondrial hemostasis and bioenergetics as well as coenzyme Q10 (CoQ10) content. PGC-1α, AMPK, sirtuin 1 (Sirt1), and Sirt3, as the key metabolic regulators under nutritional stress, stimulate energy production via mitochondrial biogenesis during AKI. However, no report is available on the relationship between CoQ10 level and nutrient sensors in the pathophysiology of AKI caused by Hemiscorpius lepturus scorpion envenomation. Methods: Three doses of venoms (1, 5, and 10 mg/kg) were administered by subcutaneous (SC) injection to male albino mice. The animals were sacrificed 1 day or 7 days after administration of venom and their kidneys were collected to analyze gene expression involved in AKI, nutrient sensors, and apoptosis signaling activation by real-time polymerase chain reaction (PCR) and the measurement of CoQ10 level using the High-performance liquid chromatography (HPLC) method. Results: The data indicated a significant decrease in CoQ10 level after the administration of venom in 5 and 10 mg/kg. In addition, 1 day after the treatment, a significant over-expression of Sirt1 (5 and 10 mg/kg) was observed compared with normal mice. Overexpression of Sirt3 occurred 1 day and 7 days after treatment only at the dose of 5.0 mg/kg of venom. Furthermore, over-expression of AMPK as an important mitochondrial energetic sensor happened 1 day and 7 days after the injection of venom (5 mg/kg) (P < 0.01). The significant increase in the gene expression of caspase-9 and 3 after the injection of venom (5 and 10 mg/kg) confirmed the role of cell death signaling. Conclusion: The venom-induced energy-sensing pathways have a key role in gene expression of PGC-1α, AMPK, Sirt3, and CoQ10 content after venom-induced AKI.

Neuroprotective Effect of Apigenin on Depressive-Like Behavior: Mechanistic Approach.

Apigenin, as a natural flavonoid present in several plants is characterized with potential anticancer, antioxidant, and anti-inflammatory properties. Recent studies proposed that apigenin affects depression disorder through unknown mechanistic pathways. The effects of apigenin's anti-depressive properties on streptozocin-mediated depression have been investigated through the evaluation of behavioral tests, oxidative stress, cellular energy homeostasis and inflammatory responses. The results demonstrated anti-depressive properties of apigenin in behavioral test including forced swimming and splash tests and oxidative stress biomarkers such as reduced glutathione, lipid peroxidation, total antioxidant power and coenzyme Q10 levels. Apigenin, also, demonstrated its regulatory potency in cellular energy homeostasis and immune system gene expression through inhibiting Nlrp3 and Tlr4 overexpression. Furthermore, failure in energy production as the key factor in various psychiatric disorders was reversed by apigenin modulating effect on AMPK gene expression. Overall, 20 mg/kg of apigenin was recognized as the dose suitable for minimizing the undesirable adverse effects in the STZ-mediated depression model proposed in this study. Our data suggested that apigenin could be able to adjust behavioral dysfunction, biochemical biomarkers and recovered cellular antioxidant level in depressed animals. The surprising results were achieved by raise in COQ10 level, which could regulate the overexpression of the AMPK gene in stressful conditions. The regulatory effect of apigenin in inflammatory signaling pathways such as Nlrp3, and Tlr4 gene expression was studied at the surface part of the hippocampus.

The role of PGC-1α and metabolic signaling pathway in kidney injury following chronic administration with 3-MCPD as a food processing contaminant.

3-Monochloropropane-1,2-diol (3-MCPD) as a byproduct of food processing and a carcinogenic agent has attracted much attention in the last decades. Kidney is the main target organ that is sensitive to the toxicity of 3-MCPD. Due to limited evidence about possible 3-MCPD toxicity, we design an investigation to determine the role of mitochondrial biogenesis following chronic oral administration of 3-MCPD (2, 4, 8 and 32 mg/kg) for 2 months in male C57 mice. The present study evaluated the affects of 3-MCPD in modulating metabolic signalling which is associated with Il-18, PGC-1α, Nrf-2 and Sir3 which are the major transcription factors. Our data confirms controversial behaviors after chronic exposure with 3-MCPD. Over expression of the PGC-1α and Sir3 and IL-18 were observed after exposure with 2,4 & 8 mg kg-1  day-1 of 3-MCPD. In front, PGC-1α down-regulation occurs at the highest dose (32 mg/kg) resulted in kidney injury. Based on the findings, PGC-1α plays an important role in the restoration of the mitochondrial function during the recovery from chronic kidney injury. We suggest that the PGC-1α can be consider as a therapeutic target in prevention and treatment of kidney injury after chronic exposure of 3-MCPD. PRACTICAL APPLICATIONS: 3-Monochloropropane-1, 2-diol (3-MCPD) existed in several foods, can induce nephrotoxicity, progressive nephropathy and renal tubule dilation following acute and chronic exposure. It revealed that 3-MCPD toxicity is related to metabolites which can cause oxidative stress and activation of cell death signaling. It seems that cytotoxicity of 3-MCPD has disruptive effect on kidney cells due to rise in ROS production and decrease in mitochondrial membrane permeability. These effects can lead to MPT pore opening, cytochrome c release and activation of programed cell death signaling pathway. Therefore, present study was investigated the role of PGC-1a and the metabolic signaling involved in 3-MCPD-induced nephrotoxicity for the first time. Our data revealed that up-regulation of mitochondrial biogenesis following chronic exposure with 3-MCPD accelerates recovery of mitochondrial and cellular function in kidney by deacetylation of histones, overexpression of transcription factors (PGC-1α, Nrf-2, and Sir3) and maintaining cellular homeostasis.

Clozapine attenuates mitochondrial dysfunction, inflammatory gene expression, and behavioral abnormalities in an animal model of schizophrenia.

Beyond abnormalities in the neurotransmitter hypothesis, recent evidence suggests that mitochondrial dysfunction and immune-inflammatory responses contribute to the pathophysiology of schizophrenia. The prefrontal cortex (PFC) undergoes maturation and development during adolescence, which is a critical time window in life that is vulnerable to environmental adversities and the development of psychiatric disorders such as schizophrenia. Applying eight weeks of post-weaning social isolation stress (PWSI) to rats, as an animal model of schizophrenia, we decided to investigate the effects of PWSI on the mitochondrial function and expression of immune-inflammatory genes in the PFC of normal and stressed rats. To do this, control and PWSI rats were divided into treatment (clozapine; CLZ, 2.5 mg/kg/day for 28 days) and non-treatment sub-groups. Our results showed PWSI caused schizophrenic-like behaviors in rats and induced mitochondrial dysfunction as well as upregulation of genes associated with innate immunity in the PFC. Chronic treatment with CLZ attenuated the effects of PWSI on behavioral abnormalities, mitochondrial dysfunction, and immune-inflammatory responses in the PFC of rats. These results may advance our understanding about the mechanism of action of CLZ that targets mitochondrial dysfunction and immune-inflammatory responses as factors involved in the pathophysiology of schizophrenia.

Toxicological assessment of 3-monochloropropane-1,2-diol (3-MCPD) as a main contaminant of foodstuff in three different in vitro models: Involvement of oxidative stress and cell death signaling pathway.

3-Monochloropropane-1,2-diol (3-MCPD) as a main source of food contamination has always been known as a carcinogenic agent. Kidney, liver, testis, and heart seem to be the main target organs for 3-MCPD. Because oxidative stress and mitochondrial dysfunction have been realized to be involved in 3-MCPD-induced cytotoxicity, the present study aimed to investigate the probable toxicity mechanisms of 3-MCPD in isolated mitochondria, HEK-293 cell line, and cell isolated from the rats' liver and kidney through measuring multiparametric oxidative stress assay. Based on the data indicating no significant difference between 3-MCPD-treated groups and control group, metabolites of 3-MCPD have a key role in organ toxicity caused by them. To further investigating the suggested hypothesis, the effect of 3-MCPD toxicity on HEK-293 cell line was examined. Although the proliferation declined after exposure to a low dose of 3-MCPD (10 to 200 µM), controversial responses in higher concentration (2 to 10 mM) have led to studies on the effect of oxidative stress and cell death signaling on isolated kidney and liver cells. Treatment of the isolated kidney and liver cells with 3-MCPD resulted in an increase in the level of reactive oxygen species (ROS), the collapse of mitochondrial membrane potential (MMP), and activation of cell death signaling without creating any significant difference in the amount of reduced glutathione. In fact, 3-MCPD can disrupt the mitochondrial electron transfer in isolated cells, which is correlated with the impairment of mitochondrial oxidative phosphorylation system, the rise of ROS level, and the failure of MMP, leading to the release of cytochrome c from mitochondria to cytosol and finally the activation of cell death signaling.

The effects of Hemiscorpius lepturus induced-acute kidney injury on PGC-1α gene expression: From induction to suppression in mice.

Hemiscorpius lepturus envenomation induces acute kidney injury (AKI) through hemoglubinoria and mitochondrial dysfunction. Mitochondria supports ATP production to promote the regulation of fluid and electrolyte balance. Mitochondrial homeostasis in different metabolic environments can be adjusted by overexpression of PGC-1α. High reactive oxygen species (ROS) production after H. lepturus envenomation and heme oxygenase-1 (HO-1) overexpression causes ATP depletion as well as mitochondrial homeostasis disruption, which lead to progression in renal diseases. The present study aims to evaluate the role of venom induced-AKI in modulating mitochondrial function in cell death and metabolic signaling associated with PPAR-α, PGC-1α, and Nrf-2 as the main transcription factors involved in metabolism. Based on the data, two significant events occurred after envenomation: reduction of gl glutathione level and overexpression of the cytoprotective enzyme HO-1. Apaoptosis induction is associated with a significant decrease in the transcription of PPAR-α, PGC-1α and Nrf-2 after administrating lethal dose of venom (10 mg/kg). Furthermore, at the lower doses of venom (1 and 5 mg/kg), with a significant recovery accompanied with PGC-1α upregulation occurs after AKI. As the findings indicate, PGC-1α has a key role in restoring the mitochondrial function at the recovery phase of mouse model of AKI, which highlights the PGC-1α as a therapeutic target for venom induced-AKI prevention and treatment.

Induction of two independent immunological cell death signaling following hemoglobinuria -induced acute kidney injury: In vivo study.

The main important clinical signs in acute kidney injury (AKI) after sever Hemiscorpius lepturus envenomation in patients is associated with proteinuria, hemolysis and hemoglobinuria. Unfortunately, our limited knowledge of molecular cell death mechanism in H. lepturus induced AKI restricts the development of desirable therapeutics. So, in the present study, the potential role of necroptosis and ferroptosis in H. lepturus induced AKI were investigated in male albino mice. The animals were administrated by SC injection of venom (1, 2.5, 5 and 10 mg/kg) based on LD50 determination. After 1 and 7 days, urinalysis, stereological assessments and gene expression of Ngal, Tnf-α, Tlr-4, Ripk3, Mlkl and Acsl4 were evaluated by real time PCR. Our data revealed that upregulation of renal Ngal expression is associated with the gene over expression of Tnf-α, Tlr-4, Ripk3 and Mlkl in venom treated kidneys. We observed that the Malondialdehyde (MDA) level was increased in dose-dependent manner similar to Acsl4 gene over expression suggesting a main role of ferroptosis in hemoglobinuria mediated AKI following envenomation. Moreover, transcriptional enhancement of Tlr-4and Tnf-α receptor can cause phosphorylation of Ripk3-Mlkl complex, collapse of membrane potential and DAMPs release which intensified the inflammation cytokines in kidney. Taken together, it supposes co-existence of two separate pathways of regulated necrosis and inflammatory environment provides a promising outlook in prevention and management of hemoglobinuria induced AKI following envenomation in clinical practice.

Effect of turmeric and carrot seed extracts on serum liver biomarkers and hepatic lipid peroxidation, antioxidant enzymes and total antioxidant status in rats.

INTRODUCTION: Pathogenic role of free radicals are well known in various metabolic diseases. They originate from internal and external sources of body. Essential roles of antioxidant defense system for cellular redox regulation and free radical scavenging activity were described in this study. Many in vitro investigations have shown that turmeric (TE) and carrot seed extract (CSE) exhibits to possess antioxidant activities. In this study, we evaluated the antioxidant potentials of ethanolic TE and CSE based on in vivo experiment in the rats. METHODS: ANIMALS WERE ASSIGNED TO SIX GROUPS: the 1st and 2nd groups were control groups and 2nd group received 0.2 ml dimethyl sulphoxide as vehicle treated group; other four experimental groups received different doses of TE (100, 200 mg/kg b.w.) and CSE (200, 400 mg/kg b.w.) by gavages, respectively for a period of one month. The indicators of oxidative stress, lipids peroxidation, markers of hepatocyte injury and biliary function markers were measured. RESULTS: The levels of superoxide dismutase, catalase, and glutathione peroxidase were significantly stimulated in the hepatic tissue of treatment groups. The malondialdehyde contents of liver tissue were significantly reduced in the groups fed with TE and CSE. Serum levels of alanine aminotransferase, aspartate aminotransferase and alkaline phosphatase, in treated groups were found to be significantly decreased, whereas albumin and total protein increased as compared to the control groups (P<0.05). CONCLUSION: this study showed that the regular intake of TE and CSE through the diet can improve antioxidant status and inhibit peroxidation activity in the liver tissue so that using these extracts may protect tissue oxidative stress.