Genetic and histopathological analysis of spermatogenesis after short-term testicular torsion in rats.

BACKGROUND: Patients with testicular torsion (TT) may exhibit impaired spermatogenesis from reperfusion injury after detorsion surgery. Alteration in the expressions of spermatogenesis-related genes induced by TT have not been fully elucidated. METHODS: Eight-week-old Sprague-Dawley rats were grouped as follows: group 1 (sham-operated), group 2 (TT without reperfusion) and group 3 (TT with reperfusion). TT was induced by rotating the left testis 720° for 1 h. Testicular reperfusion proceeded for 24 h. Histopathological examination, oxidative stress biomarker measurements, RNA sequencing and RT-PCR were performed. RESULTS: Testicular ischemia/reperfusion injury induced marked histopathological changes. Germ cell apoptosis was significantly increased in group 3 compared with group 1 and 2 (mean apoptotic index: 26.22 vs. 0.64 and 0.56; p = 0.024, and p = 0.024, respectively). Johnsen score in group 3 was smaller than that in group 1 and 2 (mean: 8.81 vs 9.45 and 9.47 points/tubule; p = 0.001, p < 0.001, respectively). Testicular ischemia/reperfusion injury significantly upregulated the expression of genes associated with apoptosis and antioxidant enzymes and significantly downregulated the expression of genes associated with spermatogenesis. CONCLUSION: One hour of TT followed by reperfusion injury caused histopathological testicular damage. The relatively high Johnsen score indicated spermatogenesis was maintained. Genes associated with spermatogenesis were downregulated in the TT rat model. IMPACT: How ischemia/reperfusion injury in testicular torsion (TT) affects the expressions of genes associated with spermatogenesis has not been fully elucidated. This is the first study to report comprehensive gene expression profiles using next generation sequencing for an animal model of TT. Our results revealed that ischemia/reperfusion injury downregulated the expression of genes associated with spermatogenesis and sperm function in addition to histopathological damage, even though the duration of ischemia was short.

Cross-link between mitochondrial-dependent apoptosis and cell cycle checkpoint proteins after experimental torsion and detorsion in rats.

The current study assessed the cross-link between mitochondria-related apoptosis and cell cycle machinery systems during ischemia and reperfusion in a rat model of testicular torsion and detorsion. The Wistar male rats were divided into control, 1 h, 2 h, 4 h and 8 h testicular torsion-induced, and 1 h, 2 h, 4 h and 8 h testicular detorsion-induced groups. The Johnson's score was analyzed. The mRNA and protein contents of Bcl-2, Bax, Caspase-3, Cyclin D1, Cdk4, P21 and P53 were investigated by sqRT-PCR and immunohistochemical staining, respectively. The apoptosis index was analyzed by TUNEL staining. The mRNA levels of bax, p53, p21 and cyclin D1 were increased, and the mRNA levels of bcl-2 and cdk4 were decreased in torsion and reperfusion-induced groups, time-dependently. The caspase-3 mRNA was increased in torsion-induced and diminished in detorsion-induced groups. A time-dependent reduction in Bcl-2+, Caspase-3+, Cyclin D1+, Cdk4+ and P53+ and increment in P21+ cells distribution per mm2 of tissue were revealed after torsion and detorsion. The apoptosis index was increased after torsion and decreased after detorsion. In conclusion, torsion-induced severe DNA damage stimulates the cyclin D1, p53 and p21 mRNA expression while more than 8 h is needed to reveal them as protein content in testicular tissue. About detorsion, decreased Cyclin D1 and Cdk4 proteins and the P53-induced transcriptional effect on p21 expression, stimulates the p21 bind to cdk4 and consequent failure in Cyclin D1/Cdk4 complex formation. This situation in association with apoptotic genes results in spermatogenesis failure.

Comparison of Intraperitoneal and Intratesticular GYY4137 Therapy for the Treatment of Testicular Ischemia Reperfusion Injury in Rats.

The efficacy of intraperitoneal GYY4137 therapy and intratesticular GYY4137 therapy in an experimental rat model was investigated. Four groups were set up as the sham-operation group, torsion/detorsion (T/D) group, T/D plus intraperitoneal GYY4137 (G-IP) group, and T/D plus intratesticular GYY4137 (G-IT) group. In order to establish a testicular T/D model, the left testis was operated and the rotation reached 720° clockwise which lasted 1 h before reperfusion. The G-IP group accepted 100 µmol/kg of GYY4137 intraperitoneally 30 min after testicular rotation, while the G-IT group was treated with the same dose by intratesticular injection. Six h after detorsion, the testis was collected and subsequently assessed. The T/D group showed significant changes in histology and an enhancement in the level of oxidative stress and apoptosis compared to the sham-operation group. The expression of Caspase-3 and Bax turned out to be strengthened by T/ D and relatively decreased with GYY4137 treatment in both the G-IP and G-IT groups. Moreover, the Bcl-2 expression was inhibited in the T/D group, and promoted by GYY4137 in the G-IP and G-IT groups. GYY4137, moderating these observed changes, displayed a more protective effect with G-IT therapy than G-IP therapy.This study indicated that the efficacy of intratesticular therapy with GYY4137 is better than that of intraperitoneal therapy, which may provide a more valuable approach for testicular torsion therapy.

Testicular torsion in brothers.

Testicular torsion is a common pediatric emergency. Predisposing factors and other risk factors for testicular torsion have not been fully elucidated. This case report highlights teenage brothers who each experienced right-sided testicular torsion at nearly the same age, just 1 year apart. Because of their parents' urgency in seeking medical attention, the affected testicles in both patients were salvaged. We also review the current literature in regards to etiology, inheritance, and patient and parental education.

Los ARNs no codificantes largos y su vinculación con las patologías testiculares / Long non-coding RNAs and their involvement in testicular pathologies / RNAs longos não-codificantes e sua ligação com patologias testiculares

Si bien la porción del genoma destinada a la síntesis de proteínas es muy pequeña, actualmente se sabe que casi todo el genoma se expresa bajo forma de ARNs no codificantes. Entre dichos ARNs se encuentran los ARNs no codificantes largos (lncRNAs). Aunque los lncRNAs han sido muy poco estudiados, recientemente han comenzado a centrar la atención de los investigadores, al descubrirse que los mismos pueden desempeñar diversas funciones en la regulación de la expresión génica. Además, su vinculación con patologías ha comenzado a ser puesta de manifiesto. Curiosamente, la cantidad de lncRNAs presentes en el testículo es abrumadoramente mayor que en cualquier otro órgano o tejido estudiado. Los perfiles de expresión de estos lncRNAs varían significativamente a lo largo de la espermatogénesis, y algunas evidencias sugieren que al menos algunos de ellos podrían participar en el proceso de formación de células germinales masculinas. No obstante, el conocimiento sobre el tema es aún muy escaso. En este trabajo revisamos la información disponible sobre la expresión de lncRNAs en el testículo y sus posibles funciones. Asimismo, analizamos algunos ejemplos que ilustran la participación de lncRNAs en el desarrollo de patologías como la infertilidad y el cáncer testicular.

Although the portion of the genome devoted to protein synthesis is very small, it is now known that almost the entire genome is expressed as non-coding RNAs. Among them, there are long noncoding RNAs (lncRNAs). Despite that lncRNAs have been very poorly studied, they have recently started to focus the attention of researchers, as it has been found out that lncRNAs can perform diverse functions in the regulation of gene expression. Besides, their involvement in pathologies is being revealed. Intriguingly, the amount of lncRNAs in the testis is overwhelmingly higher than in any other analyzed organ or tissue. LncRNA expression profiles significantly vary along spermatogenesis, and some evidence suggests that at least some of them could participate in the formation of male germ cells. However, knowledge on the subject is still very scarce. In this work we review the available information on the expression of lncRNAs in testis and their possible roles. We also analyze some examples that illustrate the participation of lncRNAs in the development of pathologies such as infertility and testicular cancer.

Embora a porção do genoma usada para a síntese proteica seja muito pequena, sabe-se agora que quase todo o genoma é expresso na forma de RNAs não-codificantes. Entre esses RNAs estão os longos RNAs não codificantes (lncRNAs). Embora os lncRNAs tenham sido pouco estudados, eles recentemente começaram a focar a atenção dos pesquisadores, ao descobrirem que podem desempenhar diversas funções na regulação da expressão gênica. Além disso, sua ligação com as patologias começou a ser revelada. Curiosamente, a quantidade de lncRNAs presentes nos testículos é esmagadoramente maior do que em qualquer outro órgão ou tecido estudado. Os perfis de expressão destes lncRNAs variam significativamente ao longo da espermatogênese, e algumas evidências sugerem que pelo menos alguns deles poderiam participar no processo de formação de células germinativas masculinas. No entanto, o conhecimento sobre o assunto ainda é muito escasso. Neste trabalho, revisamos as informações disponíveis sobre a expressão de lncRNAs no testículo e suas possíveis funções. Também analisamos alguns exemplos que ilustram a participação dos lncRNAs no desenvolvimento de patologias como infertilidade e câncer testicular.

Whole-Exome Sequencing Identifies Novel Heterozygous Mutation in RAF1 in Family With Neonatal Testicular Torsion.

OBJECTIVE: To investigate a genetic cause of neonatal testicular torsion in 2 siblings and paternal cryptorchidism in a Caucasian family without history of consanguinity, we performed whole exome sequencing. PATIENTS AND METHODS: Targeted exon/whole-exome sequencing was performed in 2 siblings with testicular torsion. Potentially pathogenic variants passing filter criteria were validated with Sanger sequencing of parents to confirm familial segregation. Additionally, immunofluorescence staining for Raf-1, pERK (downstream from Raf-1) and c-Kit was performed on a testicular biopsy on the preserved testicle from the proband brother and compared with testicular biopsies from fertile men. RESULTS: A potentially pathogenic variant was identified in the RAF1 gene (serine/threonine-protein kinase) in exon 7 of chromosome 3: 12645786 G > C; both brothers and father were heterozygous for the variant, while the mother was negative for this mutation. This mutation in exon 7 (chr3:) of RAF1 is predicted to be damaging as a highly conserved splicing site is disrupted. The mutation is not found in the single nucleotide polymorphism database, the 1000 Genomes Project, ExACT, or esp6500. Immunofluorescence of the testis biopsy from one of the brothers demonstrated markedly decreased expression of Raf-1 as well as pERK but similar expression of c-kit when compared with fertile controls. CONCLUSION: We identified a novel nonsynonymous mutation in RAF1 in n Caucasian family with testicular torsion and cryptorchidism. We present the first human evidence that the RAF/MEK/ERK pathway is associated with testicular descent.

Genetic analysis of the human insulin-like 3 gene in pediatric patients with testicular torsion.

PURPOSE: Testicular torsion (TT) mainly affects boys under 18 years old. To avoid orchiectomy, TT requires an immediate operative management. The etiology of TT is still controversial. Observed familiar recurrence suggests the presence of a genetic involvement. The INSL3 gene consists of two exons, and it is specifically expressed in fetal and adult Leydig cells. In transgenic mice, deletion of this gene was observed an increased testicular mobility and testicular torsion. We have hypothesized the possible involvement of the INSL3 gene as a predisposing factor of human TT. METHODS: We performed genetic analysis in 25 pediatric patients with unilateral and intravaginal TT (left, n = 13, 56%; right, n = 12, 48%). The age of the patients ranged from 1 to 16 years (median age n = 10.4 ± 5.46 years). In this study, we included two first male cousins affected by TT. Venous peripheral blood samples was obtained after parental written informed consent. RESULTS: The Thr60Ala polymorphism was detected in exon 1 of INSL3 gene and other 2 rarer variants (rs1047233 and rs1003887) were identified in the 3' untranslated region. These variants are prevalent in patients with TT instead of healthy subjects. CONCLUSIONS: Additional studies in a larger population are needed to better understand the clinical consequence of the INSL 3 variations founded. This would allow in the future to identify the patients at risk of TT to improve clinical management.

Testicular torsion and reperfusion: evidences for biochemical and molecular alterations.

This study was done in order to determine the molecular and biochemical alterations following testicular torsion (TT) and torsion-reperfusion (TR). For this purpose, 54 male Wistar rats were divided into five groups as control group (n = 6) and experimental group subjected to 1, 2, 4, and 8 h unilateral left torsion induction (n = 12 in each group). After induction of TT, testicular samples were collected from each group (n = 6), and the other six rats of each group underwent the same period of reperfusion after TT and then were sampled. Histological changes, the mRNA and protein expression of heat shock protein-70 (Hsp70), and caspase-3 were examined using reverse transcriptase-PCR (RT-PCR) and immunohistochemistry, respectively. Testicular total antioxidant capacity (TAC), glutathione peroxidase (GSH-px), and malondialdehyde (MDA) levels were evaluated. The mRNA damage and DNA fragmentation were assessed. The TT and TR significantly reduced differentiation and spermiogenesis indices (p < 0.05). The TT- and TR-induced groups exhibited a severe reduction in Hsp70 expression as well as remarkable enhancement in caspase-3 expression. The TAC and GSH-px levels were decreased and the MDA content was increased in TT- and TR-induced groups. Finally, the TT and TR enhanced mRNA damage and DNA fragmentation. The TT- and TR-induced damaging oxidative stress, diminished Hsp70 expression, and enhanced caspase-3 mRNA and protein levels result in apoptosis following 1, 2, and 4 h. Whereas, following 8 h, TT and TR initiate the necrosis by inducing energy depletion as well as severe mRNA damage.

Degradation of Extracellular DNA by DNase1 Significantly Reduces Testicular Damage After Testicular Torsion in Rats.

OBJECTIVE: To examine the effects of DNase1 treatment on testicular damage after testicular torsion (TT). It has been demonstrated that TT induces thrombus formation and that anticoagulation significantly reduces testicular damage after TT. It was hypothesized that these thrombi are dependent on neutrophil extracellular traps (NETs) and thus NETs disintegration would reduce testicular cell damage. METHODS: A sham operation was performed in 10 rats. Thirty-four rats underwent induction of iatrogenic TT for 3 hours. After de-torsion and randomization, 24 rats received DNase1 or inactivated DNase1. The following parameters were assessed: testicular damage via Cosentino grading; spermatogenesis via Johnsen score; stem cell factor and c-Kit, apoptosis via Bax, Bcl2, Terminal deoxynucleotidyl transferase (TdT) dUTP Nick-End Labeling assay, and cleaved caspase3 staining; oxidative stress via superoxide dismutase, catalase, glutathione peroxidase, and malondialdehyde; neutrophil recruitment via myeloperoxidase and neutrophil elastase staining; and NET formation via cell-free DNA. RESULTS: Forty-three rats were included in the study. Subjects treated with DNase1 showed significantly less cellular damage, oxidative stress, and apoptosis. Further, DNase1-treated rats demonstrated a significant improvement of spermatogenesis, compared with the controls. CONCLUSION: The results of the study indicate that thrombus formation during TT is quite likely NET associated, and that dissolution of cell-free DNA (including NETs) significantly improves testicular damage in rats. As treatment with DNase1 reduced apoptosis, oxidative stress, and inflammation, without adversely affecting coagulation, it might be a suitable treatment for (neonatal) TT and ought to be evaluated in humans.

Familial testicular torsion: a meta analysis suggests inheritance.

OBJECTIVE: Familial occurrence of testicular torsion has been infrequently reported. To date, no systematic analysis has been published. We systematically analyzed the literature to elucidate the epidemiology, presentation, management, and whether the observed prevalence of testicular torsion in families is consistent with absence of inheritance and is randomly distributed. PATIENTS AND METHODS: We searched electronic databases using keywords "testicular torsion", "spermatic cord torsion", "familial torsion" and "sibling torsion". Reports with genetically related first degree relatives were included in the analysis. Levene's nonparametric test was used to compare the variance of the age of presentation within families to that between different families to differentiate between familial predisposition and chance events. RESULTS: Up to 10% of patients with testicular torsion have an affected first degree relative. We were able to reject the null hypothesis that the observed prevalence of testicular torsion is due to chance (p < 0.001). Family history is missed in at least 27% of affected families. There is a high incidence of bilateral testicular torsion in families (37%) and probands (17%) and a high concordance rate for bilaterality among monozygous twins. CONCLUSIONS: Current evidence from clinical and animal studies suggests the presence of a genetically determined component in familiar testicular torsion. Increased awareness may lead to earlier clinical presentation and higher testicular salvage rates.

Familial testicular torsion.

PURPOSE: Isolated reported cases of familial torsion yield modest information on incidence, genetics or clinical features. We present what is to our knowledge the largest series of familial torsion, including the first 3 generation case and a review of the literature. MATERIALS AND METHODS: Since 2006, we have questioned the presence of a positive family history in all patients with torsion at the initial consultation. We compiled data on familial relationship, laterality, age and outcomes of the proband and affected relatives. We collected previously published cases to better understand clinical features and genetics. RESULTS: Eight of 70 boys (11.4%) with torsion had affected family members. Another 2 families were included from a historical perspective. One relative was affected in 7 families, 2 were affected in 2 and 3 were affected in 1. First degree relatives were most commonly affected. In 1 family torsion occurred in 3 consecutive generations. Despite a family history 50% of patients experienced testicular loss. Brothers were affected in each of the 10 previously reported cases. In 3 families fathers were also affected. There were 3 sets of monozygotic twins. We noted laterality concordance 5 times and discordance 6 times. Age at torsion in probands was adolescence except in 2 with neonatal torsion. No clear inheritance mode was found. CONCLUSIONS: Familial torsion occurs in about 10% of probands and can affect multiple relatives and generations. A positive family history may be useful for torsion diagnosis and management. Relatives of affected patients need education on the signs and symptoms of torsion, and the importance of early presentation to improve outcome.

Familial testicular torsion in three consecutive generations of first-degree relatives.

We report the first and largest family with testicular torsion in three consecutive generations affecting four first-degree relatives. The incidence of familial testicular torsion is under reported in the literature. We recommend eliciting family history in evaluation of acute scrotum, as a useful adjunct for clinical decision making. In families with a strong predisposition to testicular torsion, management should include family counseling about the significant risk of occurrence of this condition.

Loss of Insl3: a potential predisposing factor for testicular torsion.

PURPOSE: The testicular hormone Insl3 is critical for mouse gubernacular development. Knockout mice exhibit bilateral intra-abdominal cryptorchidism with absent gubernaculum. Prior studies described torsion of the vas deferens in Insl3 mutant mice. We performed a detailed anatomical analysis of the vas deferens and testis in Insl3 mutant mice to characterize associated anomalies further. MATERIALS AND METHODS: Insl3 wild-type (Insl3(+/+)), heterozygous (Insl3(+/-)) and knockout (Insl3(-/-)) male mice were examined either prepubertally (postnatal day 23) or in adulthood (postnatal day 90 or later). The macroscopic appearance, characteristics, and mobility of the testes and spermatic cord were recorded. RESULTS: We examined 56 prepubertal and 33 adult mice (175 testes, 28 [20:8] Insl3(+/+), 97 [60:37] Insl3(+/-), 50 [32:18] Insl3(-/-)). Unlike normal Insl3(+/+) testes, 94% of Insl3(-/-) testes were located intra-abdominally at all ages. Delayed descent occurred in Insl3((+/-)) testes, since 37% of postnatal day 23 and 8% of P90 or later testes were intra-abdominal. Vas elongation/convolution and spermatic cord twisting were noted in 65% of Insl3(-/-), 27% of Insl3((+/-)) and 0% of Insl3(+/+) testes. While all Insl3(+/+) testes were normal, 5% of Insl3((+/-)) and 32% of Insl3(-/-) testes showed significant testicular pathology, including torsion, atrophy and vanished testis, which statistically increased with age. CONCLUSIONS: Poorly formed gubernacula and increased testicular mobility in Insl3 mutant mice result in spermatic cord anomalies, delayed/absent testicular descent and subsequent testicular torsion in a gene dose dependent manner. Prepubertal testicular torsion in the mutant mice predisposes to testicular atrophy and vanishing testes in adulthood. Thus, Insl3 is a candidate signaling molecule in human delayed testicular descent and torsion.

Involvement of the bax and bcl-2 system in the induction of germ cell apoptosis is correlated with the time of reperfusion after testicular ischemia in a rat model.

The objective of this study was to examine the relationship between time of reperfusion and bax/bcl-2-dependent germ cell apoptosis after testicular ischemia-reperfusion injury in the rat. In ischemic testis, bax/bcl-2 ratio did not change significantly, and the elevation of germ cell apoptosis was not marked; in the contralateral testis, germ cell apoptosis increased after 6 hours of reperfusion, achieved statistical significance after 24 hours, and decreased after 72 hours of reperfusion and was initiated by decreased bcl-2 messenger RNA levels and elevated bax/bcl-2 ratio within the first 6 hours of reperfusion.

Change and significance of the expression of c-kit and SCF following recovery from unilateral testicular torsion in rats.

PURPOSE: To investigate the change in expression levels of c-kit and SCF, and the protective effects of FSH on ischemia-reperfusion injury due to testicular torsion-detorsion. METHODS: 24 adult male SD rats were divided into three groups of 8: control group, testicular torsion group and FSH-treated group. The control group was treated with sham-operation. Animals in the testicular torsion and FSH-treated groups were subjected to unilateral 720 degrees counterclockwise testicular torsion for 2 hours and then reperfusion was allowed after detorsion. The FSH-treated group received intraperitoneal injection of FSH 15min before detorsion. Then, the rats were sacrificed and the testes were harvested. Histopathological changes were observed by light microscope, and the expression levels of c-kit, SCF in testicular tissue in the different groups were detected by Immunohistochemical assay and Quantitative Real-time RT-PCR analysis. Finally, the relative proportions of germ cells were measured by FCM. RESULTS: c-kit and SCF were positive expressed in 52.58% and 61.16% of testicular cells of control tissues, respectively. Decreases of c-kit and SCF positive cells (15.01% and 9.18%) were found in the testicular torsion group. After being treated by FSH, the number of positive cells increased (31.25% and 20.01%). Moreover, the c-kit and SCF mRNA expression was increased dramatically (P < 0.01) in response to FSH stimulation. Furthermore, the number of haploid, diploid and tetraploid cells has also increased significantly in drug-treated testes (P < 0.01). CONCLUSION: The mechanism of tissue damage in the testicular torsion model, includes changes in the expression of c-kit and SCF following torsion. Also, FSH has a protective effect on germ cells after unilateral testicular torsion, which was reflected by increased c-kit and SCF levels.

Activation of Akt/protein kinase B and extracellular signal-regulated kinase in rats with acute experimental testicular torsion.

The Akt/protein kinase B (PKB) and extracellular signal-regulated kinase (ERK) pathways are involved in cell survival. This study examined the temporal profiles and localization of Akt/PKB and ERK1/2 activation in rat testis after ischemia/reperfusion (I/R). Testicular tissue was collected from normal control rats and rats exposed to reperfusion for 6, 24, and 48 hr after ischemic injury; the tissues were analyzed via Western blotting and immunohistochemistry. Western blot analysis showed that the levels of phosphorylated Akt/PKB (pAkt/PKB) and ERK1/2 (pERK1/2) increased significantly during the first 6-24 hr of reperfusion after ischemia. However, both of these activated proteins were decreased slightly at 48 hr after reperfusion. Immunohistochemically, low levels of pAkt/PKB expression were observed in Sertoli cells from the normal control. After I/R, pAkt/PKB expression increased mainly in the adluminal portion of the Sertoli cells, as well as in spermatogenic cells. In addition, pERK1/2 expression was observed in Sertoli and Leydig cells in the normal control. After I/R, pERK1/2 expression increased in some surviving spermatogenic cells (mainly spermatocytes), as well as in the adluminal portion of Sertoli cells. These results suggest that both Akt/PKB and ERK1/2 are involved in the survival of testicular cells during the early phase of testicular I/R. These pathways may represent important targets for increasing cell survival in testicular injury, including testicular torsion.