Photobiomodulation therapy reverses spermatogenesis arrest in hyperthermia-induced azoospermia mouse model.

Testicular heat stress leads to impairment of spermatogenesis in mammals. Involved mechanism in this vulnerability to heat-induced injury remains unclear, and research is being conducted to find an approach to reverse spermatogenesis arrest caused by hyperthermia. Recently, different studies have utilized photobiomodulation therapy (PBMT) therapy for the improvement of sperm criteria and fertility. This study aimed at evaluating the effect of PBMT on the improvement of spermatogenesis in mouse models of hyperthermia-induced azoospermia. A total of 32 male NMRI mice were equally divided into four groups consisting of control, hyperthermia, hyperthermia + Laser 0.03 J/cm2, and hyperthermia + Laser 0.2 J/cm2. To induce scrotal hyperthermia, mice were anesthetized and placed in a hot water bath at 43 °C for 20 min for 5 weeks. Then, PBMT was operated for 21 days using 0.03 J/cm2 and 0.2 J/cm2 laser energy densities in the Laser 0.03 and Laser 0.2 groups, respectively. Results revealed that PBMT with lower intensity (0.03 J/cm2) increased succinate dehydrogenase (SDH) activity and glutathione (GSH)/oxidized glutathione (GSSG) ratio in hyperthermia-induced azoospermia mice. At the same time, low-level PBMT reduced reactive oxygen species (ROS), mitochondrial membrane potential, and lipid peroxidation levels in the azoospermia model. These alterations accompanied the restoration of spermatogenesis manifested by the elevated number of testicular cells, increased volume and length of seminiferous tubules, and production of mature spermatozoa. After conducting experiments and analyzing the results, it has been revealed that the use of PBMT at a dosage of 0.03 J/cm2 has shown remarkable healing effects in the heat-induced azoospermia mouse model.

Age-related histopathological and biochemical testicular damages were ameliorated by vitamin C administration.

INTRODUCTION AND OBJECTIVES: Aging is an irreversible process associated with decreased biological functions that can lead to the reduction of reproductive organs capacities in males and females. Paternal age is a significant predictor of offspring health and development. So, the aim of this study was to evaluate the effects of vitamin C on histopathological and biochemical testicular changes following aging process with a focus on stereological methods. MATERIAL AND METHODS: For this study, 48 adult male NMRI mice were divided into two control and experimental groups. Mice in experimental group were supplemented with vitamin C (150mg/kg) including 24-h interval by oral gavage for 33 weeks. Same regime was performed for animals in control group except that vitamin C was replaced by water. Then, right testes were extracted for stereological and left testes were used for molecular analyses on weeks 8, 12, and 33. RESULTS: Our findings showed low semen quality, decreased level of serum Luteinizing hormone (LH), Follicle-stimulating hormone (FSH), and testosterone along with increased reactive oxygen species (ROS) production and higher apoptotic gene expression following aging. Stereological studies showed that the volume of testes, the length of seminiferous tubules, and the number of spermatogenic and none-spermatogenic cells decreased significantly during aging. Also, vitamin C consumption for 33 weeks significantly improved biochemical and histological indices. The impact of aging on male reproduction seems to be inevitable worldwide. Therefore, the use of protective and preventive remedies conserving male fecundity is very important and based on our results, vitamin C is a beneficial candidate for improving age-related testicular changes due to aging process.

Non-apoptotic cell death such as pyroptosis, autophagy, necroptosis and ferroptosis acts as partners to induce testicular cell death after scrotal hyperthermia in mice.

Cell death is a biologically uncontrollable and regulated process associated with human diseases which usually occur in response to oxidative stress that activates signalling pathways in multiple forms and can therefore contribute to human diseases. Thus, the current study aims to evaluate the signalling pathway involved in cell death after testicular hyperthermia. For this purpose, 32 mice were equally divided into four groups; I: Control; II, III and IV, Scrotal hyperthermia in which the testes are exposed to water at 43°C for 20 min every other day, respectively, 15, 10 and 5 times. Then, animals were euthanized and testicular tissue samples were isolated to evaluate protein expression as well as germ cell gene marker expression by Western blot and real-time PCR tests. Our data showed that the protein expression of Caspase-1, Beclin1, Atg7, Mlkl and Acsl4 together with the expression of Caspase-1, Beclin1, Atg7, Mlkl and Acsl4 genes was significantly up-regulated in scrotal hyperthermia-induced mice. In conclusion, the present study showed that heat stress disrupts spermatogenesis by activating several non-apoptotic signalling pathways in testicular tissue.

Photobiomodulation therapy improved functional recovery and overexpression of interleukins-10 after contusion spinal cord injury in rats.

Following severe Spinal Cord Injury (SCI), regeneration is inadequate, and functional recovery is incomplete. The occurrence of oxidative stress and the spread of inflammation play a crucial role in the failure to regenerate the injury site. In this way, we explored the neuroprotective effects of PhotoBioModulation (PBM), as the main factor in controlling these two destructive factors, on SCI. fifty-four female adult Wistar rats divided into three groups: sham group (just eliminate vertebra lamina, n = 18), SCI group (n = 18), and SCI-PBM group which exposed to PBM (150 MW, 50 min/day, 14 days, n = 18). After SCI induction at the endpoint of the study (the end of 8 week), we took tissue samples from the spinal cord for evaluating the biochemical profiles that include Catalase (CAT), Malondialdehyde (MDA), Superoxide Dismutase (SOD), Glutathione Peroxidase (GSH-PX) levels, immunohistochemistry for Caspase-3, gene expressions of Interleukin-1ß (IL-1ß), Tumor Necrosis Factor-alpha (TNF-α), and Interleukin (IL-10). Also, stereological assessments evaluated the spinal cord, central cavity volumes, and numerical density of the glial and neural cells in the traumatic area. The open-field test, rotarod test, Narrow Beam Test (NBT), Electromyography recording (EMG) test and the Basso-Beattie-Bresnehan (BBB) evaluated the neurological functions. Our results showed that the stereological parameters, biochemical profiles (except MDA), and neurological functions were markedly greater in the SCI-PBM group in comparison with SCI group. The transcript for the IL-10 gene was seriously upregulated in the SCI-PBM group compared to the SCI group. This is while gene expression of TNF-α and IL-1ß, also density of apoptosis cells in Caspase-3 evaluation decreased significantly more in the SCI-PBM group compared to the SCI group. Overall, using PBM treatment immediately after SCI has neuroprotective effects by controlling oxidative stress and inflammation and preventing the spread of damage.

Photobiomodulation Therapy Improves Spermatogenesis in Busulfan-Induced Infertile Mouse.

About 50% of infertility is caused by men. This study aimed to investigate the efficiency of photobiomodulation on spermatogenesis in a busulfan-induced infertile mouse as a testicular degeneration treatment. Thirty-two adult NMRI male mice were divided into 4 groups: control, busulfan, PBMT 0.03 J/cm2, and laser 0.2 J/cm2. In the study, azoospermia was induced by busulfan as a testicular degeneration, and then, they were treated using photobiomodulation therapy at 0.03 J/cm2 and 0.2 J/cm2 energy densities. Sperm parameters, stereological analysis, serum testosterone levels, together with SDH activity, MDA production oxidized as a marker for lipid peroxidation, glutathione (GSSG) and glutathione (GSH), mitochondrial membrane permeability (MMP), reactive oxygen species (ROS) production, and ATP production as well as TUNEL assay were assessed. Photobiomodulation therapy with 0.03 J/cm2 energy densities group revealed a significant increase the testosterone hormone level and spermatogenic cells with the reduction of apoptotic cells and marked increase in GSH, ATP, and SDH levels and decrease the levels of MDA and ROS production in the busulfan-induced mice when compared with the control and sham groups. In conclusion, the photobiomodulation therapy (0.03 J/cm2 energy density) may provide benefits on the spermatogenesis following busulfan injection and might be an alternative treatment to the patients with oligospermia and azoospermia in a dose-dependent manner.

Curcumin-Loaded Iron Particle Improvement of Spermatogenesis in Azoospermic Mouse Induced by Long-Term Scrotal Hyperthermia.

Spermatogenesis process is sensitive to heat stress because the testicular temperature is 2 to 4 °C lower than the core body temperature. The current study aimed to investigate the effects of iron oxide nanoparticles containing curcumin on spermatogenesis in mice induced by long-term scrotal hyperthermia. In this experimental study, 18 mice were equally divided into the following three groups: control, scrotal hyperthermia, and scrotal hyperthermia + curcumin-loaded iron particles (NPs) (240 µL) (mice were treated for 20 days). Hyperthermia was induced by exposure to the temperature of 43 °C for 20 min every other day for 5 weeks. Afterward, the animals were euthanized; sperm samples were collected for sperm parameters analysis, and testis samples were taken for histopathology experiments, evaluation of serum testosterone level, and RNA extraction in order to examine the expression of c-kit, STRA8 and PCNA genes. Our study showed that curcumin-loaded iron particles could notably increase the volume of testis, length of seminiferous tubules, sperm parameters, and stereological parameters (i.e., spermatogonia, primary spermatocyte, round spermatid, and Leydig cells) thereby increasing serum testosterone level; in addition, TUNEL-positive cells showed a significant decrease in curcumin-loaded iron particle group. Thus, based on the obtained results, the expression of c-kit, STRA8, and PCNA genes was significantly increased in treatment groups by curcumin-loaded iron particles compared with scrotal hyperthermia-induced mice. In conclusion, curcumin-loaded iron particles can be considered an alternative treatment for improving the spermatogenesis process in scrotal hyperthermia-induced mice.

Photobiomodulation restores spermatogenesis in the transient scrotal hyperthermia-induced mice.

OBJECTIVE: Heat stress shock affects the generation of free radicals and can have a harmful effect on spermatogenesis. Photobiomodulation (PBM) is very effective in andrology for treating male infertility. This research aimed at the evaluation of the impacts of PBM on spermatogenesis on the transient scrotal hyperthermia-induced oligospermia mouse model. MATERIALS AND METHODS: This experimental research divided 24 mice into the following four groups: (1) Control, (2) Scrotal hyperthermia, (3) Scrotal hyperthermia receiving laser 0.03 J/cm2 for 30 s for each testis, 35 days after induction of scrotal hyperthermia every other day for 35 days, and (4) Scrotal hyperthermia receiving laser 0.03 J/cm2 for 30 s for each testis, immediately after induction of scrotal hyperthermia every other day for 35 days. Scrotal hyperthermia was induced by water bath with 43 °C for 30 min. Then, the mice were euthanized, and their sperm samples were collected for sperm parameters analysis. Then, we took the testis samples for histopathological experimentations, serum testosterone level, reactive oxygen species (ROS), RNA extraction for the examination of IL1-α, IL6 and TNF-α genes expression as well as production and glutathione disulfide (GSH) activity. KEY FINDINGS: Our outputs indicated that PBM could largely improve the sperms parameters and stereological parameters, like spermatogonia, primary spermatocyte, round spermatid and Leydig cells together with an increasing level of the serum testosterone and GSH activity compared to the scrotal hyperthermia induced mice. In addition, it was found that the diameter of seminiferous tubules, ROS production, as well as the expression of IL1-α, IL6, and TNF-α genes significantly decreased in the treatment groups by PBM compared to the scrotal hyperthermia induced mice, but there was not a significant difference in terms of testis weight and Sertoli cells between the studied groups. SIGNIFICANCE: It could be concluded that PBM may be regarded as an alternative treatment for improving the spermatogenesis process in the scrotal hyperthermia induced mice.

Complementation of dopaminergic signaling by Pitx3-GDNF synergy induces dopamine secretion by multipotent Ntera2 cells.

Human teratocarcinoma cell line Ntera2 (NT2) expresses dopamine signals and has shown its safe profile for clinical applications. Attempts to restore complete dopaminergic (DAergic) phenotype enabling these cells to secrete dopamine have not been fully successful so far. We applied a blend of gene transfer techniques and a defined medium to convert NT2 cells to fully DAergic. The cells were primarily engineered to overexpress the Pitx3 gene product and then cultured in a growth medium supplemented with knockout serum and retinoic acid to form embroid bodies (EBs). Trypsinization of EB colonies produced single cells ready for differentiation. Neuronal/DAergic induction was promoted by applying conditioned medium taken from engineered human astrocytomas over-secreting glial cell-derived neurotrophic factor (GDNF). Immunocytochemistry, reverse-transcription and real-time polymerase chain reaction analyses confirmed significantly induced expression of molecules involved in dopamine signaling and metabolism including tyrosine hydroxylase, Nurr1, dopamine transporter, and aromatic acid decarboxylase. High-performance liquid chromatography analysis indicated release of dopamine only from a class of fully differentiated cells expressing Pitx3 and exposed to GDNF. In addition, Pitx3 and GDNF additively promoted in vitro neuroprotection against Parkinsonian toxin. One month after transplantation to the striatum of 6-OHDA-leasioned rats, differentiated NT2 cells survived and induced significant increase in striatal volume. Besides, cell implantation improved motor coordination in Parkinson's disease (PD) rat models. Our findings highlight the importance of Pitx3-GDNF interplay in dopamine signaling and indicate that our strategy might be useful for the restoration of DAergic fate of NT2 cells to make them clinically applicable toward cell replacement therapy of PD.

Photobiomodulation therapy compensate the impairments of diabetic bone marrow mesenchymal stem cells.

Pathophysiologic conditions associated with diabetes mellitus affect mesenchymal stem cells (MSCs), and this phenomenon may lead to some diabetic secondary complications. The present study was conducted to evaluate the impact of photobiomodulation (PBM) on rat diabetic MSC (DMSC) behavior in vitro. For the purpose of PBM, we used helium-neon laser with a wavelength of 632.8 nm at three different energy densities (0.5, 1, 2 J/cm2) and radiation periodicity of once, twice, and thrice. The survival, proliferation, and apoptosis in the normal MSCs (NMSCs), DMSCs, and diabetic MSCs, which were laser irradiated (DMSCs+L), were assessed using MTT assay, Ki67 immunofluorescence staining, and TUNEL assay, respectively. Our results demonstrated that DMSCs have significantly lower survival (P < 0.05) and proliferation rates (P < 0.001), and dramatically higher population doubling time (PDT, P < 0.001) and apoptosis rates (P < 0.001) as compared to NMSCs. Moreover, PBM with energy density of 1 J/cm2 and the periodicity of 1 or 2 times could improve diabetic MSC capabilities in the term of survival, proliferation, and apoptosis. Considering these findings, it is suggested that PBM could improve the ability of diabetic MSCs in vitro prior to transplantation or may rise their capabilities in their native niche in vivo.

Curcumin protects purkinje neurons, ameliorates motor function and reduces cerebellar atrophy in rat model of cerebellar ataxia induced by 3-AP.

BACKGROUND: Cerebellar ataxias comprise a group of terminal illnesses with ataxia as the main symptom. Curcumin as a yellow polyphenol was extracted from the rhizome ofCurcuma longa. Owing to its antioxidant, anti-inflammatory, anti-fibrotic and anti-tumor features, curcumin is considered as a potential therapeutic agent. AIM: In this study, we aim to investigate the neuroprotective effects of oral administration of curcumin on a rat model of cerebellar ataxia induced by neurotoxin 3-acetylpyridine. METHODS: The animals were randomly separated into three groups (control, 3-acetylpyridine, and curcumin + 3-acetylpyridine). Next, motor performance and muscle electromyography activity were assessed. Then, in the molecular part of the study, the anti-apoptotic role of curcumin in cerebellar ataxia and its relationship to protection of Purkinje cells were investigated. RESULTS: Curcumin treatment improved motor coordination and muscular activity, reduced cleaved caspase-3, and increased glutathione level in 3-AP-lesioned rats as well as total volumes of cerebellar granular and molecular layers. CONCLUSION: the present study implies that curcumin might have neuroprotective effects to counteract neurotoxicity of 3-AP-induced ataxia.