Cyantraniliprole impairs reproductive parameters by inducing oxidative stress in adult female wistar rats

Ozonated Sunflower Oil Stimulates the Local Antioxidant System and Helps Meglumine Antimoniate to Ameliorate Cutaneous Leishmaniasis Lesions

Cutaneous leishmaniasis is an infectious disease that causes disfiguring scars, which are not eliminated by drugs available to the treatment. Besides, these marks lead to economic and social and economic losses. Ozonated oil has wound healing activity as proven in the literature, and its use with the standard treatment to leishmaniasis could enhance the therapy. This study investigated ozonated sunflower oil as an adjuvant to meglumine antimoniate (MA) in the treatment of lesions caused by Leishmania amazonensis. BALB/c mice were infected with the parasite, and after the lesions appeared, they were subjected to different schedules through standard drug treatment (MA) with or without ozonated oil. After one month of the treatment, were evaluated the lesions thickness and their parasite burden; besides, the production of nitric oxide and cytokines from draining lymph node cells and peritoneal macrophages were determined. ERK1/2 expression and the concentrations of mature collagen and antioxidant enzymes were evaluated in the treated paws. The group that received MA with ozonated oil presented the best results, ameliorating the lesion, as shown by the macroscopic aspects and quantity of the mature collagent. The parasites were eliminated from the lesion, showing that ozonated oil enhanced the leishmanicidal action of MA. The reduction in lesions can be partially attributed to the stimulation of the local antioxidant system, which reached significantly greater levels in the MA plus topical ozonated oil group than MA and nontreated groups. So, the treatment of the experimental cutaneous leishmaniais with ozonated sunflower oil as adjuvant proved to be effective, increasing the leishmanicidal and wound healing effects of meglumine antimoniate.

Ampligo® 150 ZC affect the expression of sex hormone receptors and cell proliferation marker in female rabbit ovary: Protective effects of thyme essential oil and vitamin C

Pesticides tend to cause serious reproductive defects, disturbing endocrine functions and reducing fertility, especially in females. The objective of this work was to identify the reprotoxic effects of Ampligo® 150 ZC (AP), a mixture formulation of lambda cyhalothrin and chlorantraniliprole, on the ovary of female rabbits (Oryctolagus cuniculus) and the possible protective effect of co-treatment with thyme essential oil (TEO), extracted from (Thymus vulgaris) species, and vitamin C (vit C). Twenty female rabbits were divided into four equal groups (n = 5): Control (distilled water), AP (20 mg/ kg bw of the insecticide mixture every other day, by gavage for 28 days), AP+TEO (20 mg/ kg bw of AP + 0.5 mg/ kg bw of TEO every other day), and AP+TEO+Vit C (20 mg/ kg bw of AP + 0.5 mg/ kg bw of TEO + 200 mg/ kg bw of vitamin C every other day). The effects were tested on body weight, ovary histomorphometry, and immunohistochemical expression of AFP, estrogen receptor (ER), and progesterone receptor (PR). The results revealed that AP decreased body and ovarian weights, caused ovarian histological damages, and increased collagen fiber deposition. The immunostaining of the ovary showed a significant (p < .001) increase in AFP and decrease in both ER and PR expressions. In the opposite, co-administration of TEO and vitamin C was effective in improving all caused alterations. In conclusion, combined use of TEO and vitamin C ameliorated the toxic effects of Ampligo® on the ovary in female rabbits.

Oral administration of cyantraniliprole to wistar rats during pregnancy and lactation alters maternal behavior and harms the female reproductive system of pubertal and adult offspring

Over the past years, global pesticide use has increased by 20%. New insecticidal molecules, like cyantraniliprole, aim to reduce side effects due to the high toxicity of pesticides and their harmful effects on health and the environment. Its mechanism involves binding to ryanodine receptors, causing rapid calcium ion release. As a new molecule, studies on its effects on mammals are scarce. This work evaluates oral cyantraniliprole's impacts during pregnancy and lactation on maternal behavior and the reproductive system of female offspring. Approved by CEUA-UEL (OF. CIRC. CEUA n. 20/2020), Wistar rats were mated, and after pregnancy diagnosis, divided into control groups, C1, C10, and C150, receiving water and cyantraniliprole at 1, 10, and 150 mg/kg/day, respectively, by gavage. Maternal behavior, offspring physical development, uterine and ovarian histology, and oxidative stress levels were analyzed. Maternal exposure to 150 mg/kg/day was toxic to pregnancy, causing loss of the experimental group. Analysis showed significant changes in maternal behavior in C1 and C10, with increased pup contact, longer breastfeeding, and less cleaning time. No changes in offspring development were observed in C1 and C10. Histology and oxidative stress analysis of the ovaries showed no changes, while uterine analysis indicated thickening and increased oxidative stress.

Chlorantraniliprole (Coragen® 20% SC) exposure induced reproductive toxicity mediated by oxidative stress, apoptosis, and sperm quality deficient in male Wistar rats

Pesticides can adversely affect reproduction by causing congenital abnormalities, fetal demise, and infertility. The reproductive toxicity of coragen, a modified ryanodine receptor-targeting insecticide with chlorantraniliprole concentrations of 20%, was examined in male rats. Twenty-one healthy male rats were randomly assigned to one of three groups: the control group, two orally administered with low (500 mg/kg) and high (1000 mg/kg) doses of coragen for 8 weeks. Exposure to coragen resulted in significant, dose-dependent changes in male reproductive hormones, steroidogenic enzymes, and an imbalance in the oxidant-antioxidant system. The treated groups revealed significantly higher lipid peroxidation levels than the control group. The effects were accompanied by damage to testicular tissue, modified testicular lactate dehydrogenase, reduced sperm motility and viability, and heightened sperm abnormalities. Elevated levels of pro-apoptotic proteins (caspase-3 and Bax) and decreased levels of anti-apoptotic protein (Bcl-2) provided evidence of apoptosis in both treatment groups. Moreover, coragen induced substantial DNA damage in the testicular tissue. The results indicate that the reproductive impairment caused by coragen may be ascribed to oxidative stress, hormonal disturbance, apoptosis, and damage to testicular DNA and finally might result in infertility and compromised reproductive function.

The development of silk glands and transcriptome aberration induced by cyantraniliprole in Bombyx mori

Bombyx mori is an insect species of great economic importance, and its silk gland is a vital organ for the synthesis and secretion of silk protein. However, long-term artificial domestication of B. mori has resulted in high sensitivity to chemical toxins, especially insecticides. Cyantraniliprole (Cya), a second-generation ryanodine receptor modulator insecticide, is widely utilized in agriculture for pest control. In this study, the impact of Cya toxicity on the development of silk glands in the 5th instar larvae of B. mori was assessed using Cya LC5, LC10 and LC20, as well as a starvation treatment group for comparison. Short-term exposure (24 h) to different concentrations of Cya resulted in delayed development of silk glands in B. mori. Meanwhile, the body weight, silk gland weight, silk gland index and cocoon quality were significantly reduced in a concentration-dependent manner, except for the Cya LC5 treatment. Histopathological and ultrastructural analysis revealed that Cya LC10 induced disruption of the nuclear membrane and endoplasmic reticulum in the posterior silk gland (PSG) cells, leading to the formation of intracellular vacuoles. Transcriptome sequencing of PSGs identified 2152 genes that were differentially expressed after exposure to Cya LC10, with 1153 down-regulated genes and 999 up-regulated genes. All differentially expressed genes were subjected to functional annotation using gene ontology and Kyoto encyclopedia of genes and genomes database, and it was found that protein synthesis-related pathways were significantly enriched, with the majority of genes being down-regulated. Furthermore, the transcription levels of genes involved in "protein processing in endoplasmic reticulum", "protein export", "proteasome" and "DNA replication" were quantified using qRT-PCR. Our findings suggested that short-term exposure to Cya LC10 resulted in disruption of DNA replication, as well as protein transport, processing and hydrolysis in the PSG cells of B. mori. The results of this study provide a theoretical foundation for the safe utilization of Cya in sericulture production.

Non-targeted impact of cyantraniliprole residues on soil quality, mechanism of residue degradation, and isolation of potential bacteria for its bioremediation

Cyantraniliprole (CY), an anthranilic diamide insecticide widely used in grape farming for controlling various sucking pests, poses ecological concerns, particularly when applied as soil drenching due to the formation of more toxic and persistent metabolites. This study established the dissipation and degradation mechanisms of CY in grape rhizosphere soil using high-resolution Orbitrap-LC/MS analysis. The persistence of CY residues beyond 60 days was observed, with dissipation following biphasic first + first-order kinetics and a half-life of 15 to 21 days. The degradation mechanism of CY in the soil was elucidated, with identified metabolites such as IN-J9Z38, IN-JCZ38, IN-N7B69, and IN-QKV54. Notably, CY was found to predominantly convert to the highly persistent metabolite IN-J9Z38, raising environmental concerns. The impact of CY residues on soil enzyme activity was investigated, revealing a negative effect on dehydrogenase, alkaline phosphatase, and acid phosphatase activity, indicating significant implications for phosphorous mineralization and soil health. Furthermore, bacterial isolates were obtained from CY-enriched soil, with five isolates (CY3, CY4, CY9, CY11, and CY20) demonstrating substantial degradation potential, ranging from 66 to 92% of CY residues. These results indicate that the identified bacteria hold potential for commercial use in addressing pesticide residue contamination in soil through bioremediation techniques.

Preparation of a broad-specific monoclonal antibody and development of an immunochromatographic assay for monitoring of anthranilic diamides in vegetables and fruits

A mAb-based lateral flow immunochromatographic strip for the detection of anthranilic diamides in vegetables and fruits was developed. The strip provided cut-off values of 2.5, 5, 10, and 10 ng g−1 for CHL, CYA, CYC, and TEA, respectively.