Chloroquine ameliorates adriamycin-induced testicular damage by suppressing the inflammation and apoptosis in rats: a histological, immunohistochemical and biochemical study / La cloroquina mejora el daño testicular inducido por la adriamicina al suprimir la inflamación y la apoptosis en ratas: un estudio histológico, inmunohistoquímico y bioquímico

SUMMARY: Adriamycin (ADR) is an anthracycline antibiotic used for treatment of many types of cancer. However, its applications may damage to healthy tissues. Chloroquine (CLQ) is an anti-inflammatory agent used in treatment of many inflammation associated diseases such as malaria and rheumatoid arthritis. Moreover, it is used in the treatment of pneumonia caused by COVID-19. The aim of this study is to determine possible therapeutic effects of Chloroquine on Adriamycin-induced testicular toxicity in rats. We investigated the effect of CLQ on testicular injury caused by ADR. Rats were divided into four groups: Control, ADR, CLQ, ADR+CLQ. After administrations, animals were sacrificed, and testis tissues were extracted from the animals for the further examinations. Histopathological changes in testis tissues were evaluated and TNF-α and IL-6 immunostaining were performed to determine the expression levels of these cytokines. TUNEL method were used for evaluation of apoptotic index. Moreover, serum testosterone levels were measured by ELISA assay. We observed that ADR group showed histopathological deterioration when compared to the Control group and CLQ treatment ameliorated this damage induced by Adriamycin.An increase in TNF-α and IL-6 immunoreactivities and in the number of apoptotic cells and a decrease in serum testosterone levels were determined in the ADR group compared to the Control and CLQ group. Furthermore, our examinations showed an improvement in testicular tissue in ADR+CLQ group in terms of these parameters when compared to the ADR group. We suggest that CLQ can be used as a protective agent to reduce the toxic effects of Adriamycin as a result of its anti-inflammatory and anti-apoptotic properties.

RESUMEN: La adriamicina (ADR) es un antibiótico de antraciclina que se usa para el tratamiento de muchos tipos de cáncer. Sin embargo, sus aplicaciones pueden dañar los tejidos sanos. La cloroquina (CLQ) es un agente antiinflamatorio que se utiliza en el tratamiento de enfermedades asociadas a la inflamación, tal como la malaria y la artritis reumatoide. También se utiliza en el tratamiento de la neumonía causada por COVID-19. El objetivo de este estudio fue determinar los posibles efectos terapéuticos de la cloroquina sobre la toxicidad testicular inducida por adriamicina en ratas. Investigamos el efecto de CLQ sobre la lesión testicular causada por ADR. Las ratas se dividieron en cuatro grupos: Control, ADR, CLQ, ADR + CLQ. Después de las administraciones, se sacrificaron los animales y se extrajeron los testículos de los animales para los exámenes adicionales. Se evaluaron los cambios histopatológicos en los tejidos testiculares y se realizó la inmunotinción de TNF-α e IL-6 para determinar los niveles de expresión de estas citocinas. Se utilizó el método TUNEL para la evaluación del índice apoptótico. Además, los niveles de testosterona en suero se midieron mediante un ensayo ELISA. El grupo ADR mostró un deterioro histopatológico en comparación con el grupo Control y observamos que el tratamiento con CLQ mejoró el daño inducido por Adriamicina. Un aumento en las inmunorreactividades de TNF-α e IL-6 y en el número de células apoptóticas además de una disminución en los niveles séricos de testosterona se determinaron en el grupo de ADR en comparación con el grupo de control y CLQ. Además, nuestros exámenes mostraron una mejora en el tejido testicular en el grupo ADR + CLQ en términos de estos parámetros en comparación con el grupo ADR. Sugerimos que CLQ se puede utilizar como agente protector para reducir los efectos tóxicos de la Adriamicina, gracias a sus propiedades antiinflamatorias y antiapoptóticas.

Momordica cochinchinensis (L. ) spreng: aril extract prevents adverse reproductive parameters of male rats Induced with valproic acid / El extracto del arilo Momordica cochinchinensis (L. ) Spreng previene los parámetros reproductivos adversos inducidos con ácido valproico en ratas macho

This study aimed to investigate protective effect of Momordica cochinchinensis (MC) aril extract on adverse reproductive parameters of male rat induced with valproic acid (VPA) commonly used in treatment for antiepileptic diseases. Male Wistar rats were divided into 6 groups (control, VPA, 200 mg/kg BW of PE only, and 50, 100, 200 mg/kg BW MC+VPA, respectively). Animals were pretreated with aqueous MC extract for 23 days before co-administered with VPA induction for 10 days. At the end of experiment, all male reproductive parameters and testicular histology were examined. The results showed all doses of PE significantly protect the decrease the weights of epididymis and seminal vesicle but not of body and testicular weights. MC extract also increased sperm concentration and seminiferous tubular diameters in MC+VPA co-administrative groups. Moreover, testicular histology of MC+VPA groups showed significant declining of testicular histopathologies as compared to VPA group. It was concluded that M. Cochinchinensis aril extract can prevent adverse male reproductive parameters and testicular damage induced with VPA.

El objetivo fue investigar el efecto protector del extracto de arilo de Momordica cochinchinensis (MC) sobre los parámetros reproductivos adversos de la rata macho inducida con ácido valproico (AV) que se utiliza comúnmente en el tratamiento de enfermedades epilépticas. Las ratas se dividieron en 6 grupos (control, AV, 200 mg/kg por peso corporal de PE solamente, y 50, 100, 200 mg/kg por peso corporal MC+AV, respectivamente). Los animales fueron tratados previamente con extracto acuoso MC durante 23 días, antes de la administración de AV durante 10 días. Al término del experimento, se examinaron todos los parámetros reproductivos masculinos y la histología testicular. Los resultados indicaron que todas las dosis de PE protegen de manera significativa la disminución de los pesos de epidídimo y vesículas seminales, pero no de peso corporal y testicular. El extracto de MC también aumentó la concentración de espermatozoides y los diámetros de los túbulos seminíferos en los grupos de administración con MC+AV. Por otra parte, la histología testicular de los grupos MC+AV mostró una disminución significativa de histopatologías testiculares en comparación con el grupo AV. En conclusión, el extracto de arilo M. cochinchinensis puede prevenir la aparición de parámetros reproductivos masculinos negativos y los daños testiculares inducidos con AV.

Melatonin protective role in mouse cauda epipidymal spermatozoa damage induced by sodium arsenite / Rol protector de la melatonina en el daño de espermatozoides de cauda epididimaria en ratón producido por arsenito de sodio

We evaluated the sperm parameters such as cauda epididymis weight, sperm count, sperm morphology and sperm DNA stability of adult CF-1 male mice treated daily (oral exposure) with the toxic sodium arsenite (As, 7.0 mg/kg/body weight); Melatonin (Me, 10.0 mg/kg/bw), Me (10.0 mg/kg/bw) plus As (7.0 mg/kg/bw) and Negative Control (NaCl 0.9 percent) to assess acute (8.3 days), chronic (33.2 days) and recovery of testicular damage (66.4 days). Arsenic decreases the number of sperm from chronic treatment (33.2 days) and this effect continued until 66.4 days of treatment. The toxic effect of As also altered the morphology of spermatozoa in all treatment periods when compared to the negative control group. However, Metalonin induced protective effects in periods of 33.2 and 66.4 days of treatment. Additionally, the stability of DNA was significantly affected by arsenic in all periods, but the chronic treatment (33.2 days) in the AsMe revealed increased stability compared to the group treated with arsenic only. Melatonin partially protects sperm toxicity caused by Arsenic, especially during periods of 33.2 and 66.4 days.

Se evaluaron los parámetros espermáticos como peso de la cola del epidídimo, conteo de espermatozoides, morfología de los espermatozoides y estabilidad del ADN de espermatozoides de ratones machos adultos CF-1 tratados diariamente (exposición oral) con el tóxico arsenito de sodio (As, 7,0 mg/kg/peso corporal), melatonina (Me, 10,0 mg/kg/pc, Me (10,0 mg/kg/pc) más As (7,0 mg/kg/pc) y el Control Negativo (NaCl 0,9 por ciento) en evaluación aguda (8,3 días), crónica (33,2 días) y recuperación del daño testicular (66.4 días). El arsénico reduce el número de espermatozoides en el tratamiento crónico (33,2 días) y este efecto continuó hasta 66,4 días. El efecto tóxico de As también altero la morfología de los espermatozoides en todos los períodos de tratamiento cuando se compara con el grupo control negativo. Sin embargo, metalonina indujo efectos protectores en períodos de 33,2 y 66,4 días de tratamiento. La estabilidad del ADN se vio afectada significativamente por el arsénico en todos los periodos, pero en el tratamiento crónico (33,2 días) con AsMe se observa un aumento de la estabilidad em comparación com el grupo tratado con arsénico. Sin embargo, la melatonina protege parcialmente a los espermatozoides del daño causado por arsénico, especialmente durante los períodos de 33,2 y 66,4 días.

Effect of purine nucleoside analogue-acyclovir on the sperm parameters and testosterone production in rats

Acyclovir [ACV], a synthetic purine nucleoside analogue derived from guanosine, is known to be toxic to gonads and the aim of this study was to evaluate the effect of ACV on the sperm parameters and testosterone production in rat. In this experimental study, forty adult male Wistar rats [220 +/- 20 g] were randomly divided into five groups [n=8 for each group]. One group served as control and one group served as sham control [distilled water was intraperitoneally [i.p.] injected]. ACV was administered intraperitoneally in the drug treatment groups [4, 16 and 48 mg/kg/day] for 15 days. Eighteen days after the last injection, rats were sacrificed by CO2 inhalation. After that, cauda epididymides were removed surgically. At the end, sperm concentrations in the cauda epididymis, sperm motility, morphology, viability, chromatin quality and DNA integrity were analyzed. Serum testosterone concentrations were determined. The results showed that ACV did not affect sperm count, but decreased sperm motility and sperm viability at 16 and 48 mg/kg dose-levels. Sperm abnormalities increased at 48 mg/kg dose-level of ACV. Further, ACV significantly increases DNA damage at 16 and 48 mg/kg dose-levels and chromatin abnormality at all doses. Besides, a significant decrease in serum testosterone concentrations was observed at 16 and 48 mg/ kg doses. The present results highly support the idea that ACV induces testicular toxicity by adverse effects on the sperm parameters and serum level of testosterone in male rats

Ecotoxicology and testicular damage (environmental chemical pollution): a review

This review briefly considers the testicular damage elicited by environmental chemical pollution. It includes a short comment on environmental toxicology as an introduction to environmental chemical pollution, highlighting the importance of this current field of study and its impact on male reproductive health. Furthermore an experimental animal model addressing the effect of organophosphorated agropesticides as a testicular toxicant is presented. Moreover two relevant chemical contaminants and their effect on the testis, such as the classical case of lead and the rarely reported case of Boron on spermatogenesis, are considered. Additionally, the subject of biosentinel species and their relevance for the monitoring of pollution in aquatic and/or terrestrial ecosystems is considered. In conclusion, it should be stressed that environmental health is closely related to the reproductive health of all living beings.

Esta revisión considera el daño testicular provocado por la contaminación química ambiental. Incluye un breve comentario sobre toxicología ambiental a modo de introducción respecto a la polución química ambiental y destaca la importancia de este campo de estudio actual y su impacto sobre la salud reproductiva masculina. Además se presenta un modelo experimental animal concerniente al efecto de agropesticidas organofosforados como tóxicos testiculares. Se consideran dos contaminantes químicos relevantes y su efecto en el testículo como son el clásico caso del plomo y el menos conocido caso del boro y sus efectos sobre la espermatogénesis. También se trata el tema de las especies biocentinelas y su importancia para el monitoreo de la evolución de ecosistemas acuáticos y/o terrestres. En conclusión, es necesario insistir que la salud medioambiental está íntimamente relacionada con la salud reproductiva de todos los seres vivos.

Arsenic induced toxicity on testicular tissue of mice.

Effect of arsenic was studied on the testicular tissue of Swiss albino mice. Sodium-meta-arsenite (NaAsO2) was administered to adult mice (25 +/- 30 g) at a dose level of 30 mg/L and 40 mg/L through drinking water for 30, 45 and 60 days. After the treatment, the testicular organ was removed, weighed and processed for histopathological observation. No change in the body weight was recorded in treated groups after arsenic exposure but significant decrease in the relative testicular weight was observed in comparison with the control. The result showed that arsenic-treated mice exhibited dose dependent gradual reductions in seminiferous tubular diameter and various gametogenic cell population i.e. resting spermatocyte, pachytene spermatocyte and step-7-spermatid except spermatogonia. Leydig cell atrophy was significantly increased in dose dependent manner indicating a definite effect of arsenic on the spermatogenesis in mice. These observations were supported by gradual reduction in Leydig cell population in the above treated groups. In conclusion, the above results confirm the toxic effect of arsenic in testis of mice.

An ultrastructural study on cytotoxic effects of mono(2-ethylhexyl) phthalate (MEHP) on testes in Shiba goat in vitro

In this study, the effects of mono(2-ethylhexyl) phthalate (MEHP), one of metabolites of di(2-ethylhexyl) phthalate, on immature Shiba goat testes in vitro were examined. The testes of 2-month-old Shiba goats were cut into smaller pieces, and seeded in medium. At 1, 3, 6 and 9 hr after administration of MEHP at various concentrations (0, 100 nmol ml-1, 1 nmol ml-1, and 1 x 10-3 nmol ml-1, respectively), the specimens were obtained for light and transmission electron microscopic observations. As a result, at 1 hr after exposure to MEHP, the vacuolization and nuclear membrane rupture appeared in Sertoli cells. Such alterations tended to gradually increase in number in timeand dose-dependent manners. Moreover, by MEHP treatment, apoptotic spermatogenic cells (characterized with chromatin condensation, cytoplasm shrinkage without membrane rupture, still functioning cell organelles, and packed cell contents in membrane-bounded bodies), apoptotic Sertoli cells (characterized with nuclear membrane lysis, nuclear condensation), necrotic spermatogenic cells (characterized with swollen and ruptured mitochondria, plasma membrane lysis, spilt cell contents, and chromatin clumps), and necrotic Sertoli cells (characterized with marginated chromatins along the nuclear membrane, ruptured vesicles within the MNB, some swollen and ruptured cell organelles, e.g. mitochondria) could be identified. Conclusively, ultrastructurally the treatment with MEHP at low concentration tends to lead spermatogenic and Sertoli cells to apoptosis, whereas that at high concentration tends to lead spermatogenic and Sertoli cells to necrosis. Thus, the testicular tissue culture is advantageous for screening testicular toxicity of chemicals.

BHC induced testicular impairments in rats.

Benzene hexachloride (BHC) was fed to mature male rats weighing 160 g at dosages of 3 and 6 mg/kg body weight over a period of 180 days. Significant decrease in testicular weight and degeneration of seminiferous tubules with deformed spermatogenic cells were noted at a dose of 6 mg/kg BHC. Marked increase in BHC residue in testis revealed that the drug was able to cross blood-testis barrier.

Methylmercury induced biochemical and histochemical alterations in rat testis.

The methylmercurry chloride (MMC) administered at doses of 5 and 10 micrograms/kg over a period of 90 days to male rats caused enzymatic impairments in testicular tissue. The study at intervals of 15, 30, 60 and 90 days showed gradual diminution of testicular weight and gradual decrements in testicular protein and inhibition in testicular succinic dehydrogenase activity. Histochemical and biochemical studies revealed that testicular acid phosphatase activity was also inhibited at both the doses of MMC treatment. The inhibition of enzyme activity in testicular tissues after MMC treatment caused the impairment of both spermatogenesis and steroidogenesis in rats.