Your search keyword '"Testis radiation effects"' showing total 40 results

1. Expression levels of tam receptors and ligands in the testes of rats exposed to short and middle-term 2100 MHz radiofrequency radiation.

Author

Katirci E, Kirimlioglu E, Oflamaz AO, Hidisoglu E, Cernomorcenco A, Yargıcoğlu P, Ozen S, and Demir N

Subjects

Animals, Male, Rats, Apoptosis radiation effects, Axl Receptor Tyrosine Kinase, Caspase 3 metabolism, Intercellular Signaling Peptides and Proteins, Ligands, Rats, Wistar, Spermatogenesis radiation effects, Time Factors, Radio Waves adverse effects, Receptor Protein-Tyrosine Kinases metabolism, Testis metabolism, Testis radiation effects

Abstract

With advances in technology, the emission of radiofrequency radiation (RFR) into the environment, particularly from mobile devices, has become a growing concern. Tyro 3, Axl, and Mer (TAM) receptors and their ligands are essential for spermatogenesis and testosterone production. RFR has been shown to induce testicular cell apoptosis by causing inflammation and disrupting homeostasis. This study aimed to investigate the role of TAM receptors and ligands in the maintenance of homeostasis and elimination of apoptotic cells in the testes (weeks), short-term sham exposure (sham/1 week), and middle-term sham exposure (sham/10 weeks). Testicular morphology was assessed using hematoxylin-eosin staining, while immunohistochemical staining was performed to assess expression levels of TAM receptors and ligands in the testes of all groups. The results showed that testicular morphology was normal in the control, sham/1 week, and sham/10 weeks groups. However, abnormal processes of spermatogenesis and seminiferous tubule morphology were observed in RFR exposure groups. Cleaved Caspase 3 immunoreactivity showed statistically significant difference in 1 and 10 weeks exposure groups compared to control group. Moreover, there was no significant difference in the immunoreactivity of Tyro 3, Axl, Mer, Gas 6, and Pros 1 between groups. Moreover, Tyro 3 expression in Sertoli cells was statistically significantly increased in RFR exposure groups compared to the control. Taken together, the results suggest that RFR exposure negatively affects TAM signalling, preventing the clearance of apoptotic cells, and this process may lead to infection and inflammation. As a result, rat testicular morphology and function may be impaired., (© 2024 Bioelectromagnetics Society.)

Published

2024

2. Mitochondrial proteomics reveals the mechanism of spermatogenic cells apoptosis induced by carbon ion radiation in zebrafish.

Author

Li H, Zhang W, Zhang H, Xie Y, Sun C, Di C, Si J, Gan L, and Yan J

Subjects

Animals, Cell Proliferation radiation effects, Gene Expression Regulation radiation effects, Male, Mitochondria metabolism, Mitochondria radiation effects, Mitochondrial Proteins genetics, Mitochondrial Proteins metabolism, Proteomics, Testis radiation effects, X-Rays, Zebrafish, Apoptosis radiation effects, Carbon, Heavy Ion Radiotherapy adverse effects, Heavy Ions, Spermatogonia drug effects, Testis cytology

Abstract

The mitochondrial proteins involved in spermatogenic cells apoptosis in zebrafish after carbon ion radiation (CIR) were screened. The relative biological effectiveness (RBE) of CIR in zebrafish testes was investigated. Apoptosis of testicular cells was measured within 24 hr following 1 and 4 Gy CIR. Immunoblotting was used to assess the levels of mitochondrial apoptotic proteins in testes, and proliferative and apoptotic spermatogenic cells were detected by immunofluorescence after CIR. Label-free quantitative (LFQ) and parallel reaction monitoring-based target proteomics (PRM) were combined to screen and validate differential mitochondrial proteins in testes between 4 Gy and control groups at 24 hr after CIR. The RBE of CIR in zebrafish testes was 1.48 ± 0.04, and induction of apoptosis by CIR was higher than that of X-rays in testicular cells. Mitochondrial apoptotic pathways play a crucial role in spermatogenic cells apoptosis after CIR, with 60 differential mitochondrial proteins identified. Among 20 target proteins, 12 were significantly upregulated, 2 were significantly downregulated in the 4 Gy CIR group. The results of PRM were consistent with label-free analysis. This is the first study to screen the differential mitochondrial proteins and provide useful information to understand the underlying mechanisms of spermatogenic cell apoptosis in zebrafish following CIR., (© 2019 Wiley Periodicals, Inc.)

Published

2019

3. Effects of exposure to extremely low frequency magnetic fields on spermatogenesis in adult rats.

Author

Duan W, Liu C, Wu H, Chen C, Zhang T, Gao P, Luo X, Yu Z, and Zhou Z

Subjects

Animals, Apoptosis radiation effects, Body Weight radiation effects, Epididymis pathology, Epididymis physiology, Epididymis radiation effects, In Situ Nick-End Labeling, Male, Meiosis radiation effects, Organ Size, Oxidative Stress radiation effects, Random Allocation, Rats, Sprague-Dawley, Spermatogenesis physiology, Spermatozoa radiation effects, Testis pathology, Testis physiology, Testis radiation effects, Testosterone blood, Magnetic Fields adverse effects, Spermatogenesis radiation effects

Abstract

The constant exposure of modern society to extremely low frequency magnetic fields (ELF-MF) has raised considerable concerns about the potential risks to male reproduction. However, the epidemiological and experimental data remain contradictory and inconclusive. In the present study, we investigated the effects of 50 Hz ELF-MF of 500 µT applied 4 h/day, 7 days/week for 4 and 8 weeks on male reproduction, focusing on changes in spermatogenesis. Several biological endpoints related to testicular function and spermatogenesis were measured, including the following: body mass, masses of testes and epididymis, sperm count and abnormal sperm ratio in the caudal epididymis, serum testosterone level, testicular histology, frequency of 14 stages of the cycle of the seminiferous epithelium and of four stages of meiosis I, germ cell apoptosis and testicular oxidative status. No significant differences were found in the biological endpoints between the sham control and the exposed rats in either the 4- or 8-week exposure period. These negative results may result from the lack of change in serum testosterone. In conclusion, our study indicates that exposure to low intensity ELF-MF may have no adverse effects on spermatogenesis., (© 2013 The Authors. Bioelectromagnetics Published by Wiley Periodicals, Inc.)

Published

2014

4. Direct and delayed X-ray-induced DNA damage in male mouse germ cells.

Author

Cordelli E, Eleuteri P, Grollino MG, Benassi B, Blandino G, Bartoleschi C, Pardini MC, Di Caprio EV, Spanò M, Pacchierotti F, and Villani P

Subjects

Animals, DNA Repair, Male, Mice, Mice, Inbred C57BL, Mutagenicity Tests, Spermatogenesis radiation effects, Testis radiation effects, DNA Damage, Mutation radiation effects, Spermatozoa radiation effects, X-Rays adverse effects

Abstract

Sperm DNA integrity is essential for the accurate transmission of paternal genetic information. Various stages of spermatogenesis are characterized by large differences in radiosensitivity. Differentiating spermatogonia are susceptible to radiation-induced cell killing, but some of them can repair DNA damage and progress through differentiation. In this study, we applied the neutral comet assay, immunodetection of phosphorylated H2AX (γ-H2AX) and the Sperm Chromatin Structure Assay (SCSA) to detect DNA strand breaks in testicular cells and spermatozoa at different times following in vivo X-ray irradiation. Radiation produced DNA strand breaks in testicular cells that were repaired within the first few hours after exposure. Spermatozoa were resistant to the induction of DNA damage, but non-targeted DNA lesions were detected in spermatozoa derived from surviving irradiated spermatogonia. These lesions formed while round spermatids started to elongate within the testicular seminiferous tubules. The transcription of pro-apoptotic genes at this time was also enhanced, suggesting that an apoptotic-like process was involved in DNA break production. Our results suggest that proliferating spermatogonia retain a memory of the radiation insult that is recognized at a later developmental stage and activates a process leading to DNA fragmentation., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2012

5. The effects of simultaneous combined exposure to CDMA and WCDMA electromagnetic fields on rat testicular function.

Author

Lee HJ, Jin YB, Kim TH, Pack JK, Kim N, Choi HD, Lee JS, and Lee YS

Subjects

Animals, Apoptosis radiation effects, Body Temperature radiation effects, Cyclin G metabolism, DNA Damage, Epididymis metabolism, Epididymis radiation effects, HSP70 Heat-Shock Proteins metabolism, Male, Malondialdehyde metabolism, Organ Size radiation effects, Oxidative Stress radiation effects, Rats, Rats, Sprague-Dawley, Sperm Count, Spermatogenesis radiation effects, Testis cytology, Testis metabolism, Testosterone blood, Time Factors, Electromagnetic Fields adverse effects, Radio Waves adverse effects, Testis physiology, Testis radiation effects

Abstract

Wireless mobile phones and other telecommunication devices are used extensively in daily life. We therefore examined the effects of combined exposure to radiofrequency electromagnetic fields (RF-EMF) on rat testicular function, specifically with respect to sensitive processes such as spermatogenesis. Male rats were exposed to single code division multiple access (CDMA) and wideband code division multiple access (WCDMA) RF signals for 12 weeks. The RF exposure schedule comprised 45 min/day, 5 days/week for a total of 12 weeks. The whole-body average specific absorption rate (SAR) of CDMA and WCDMA was 2.0 W/kg each or 4.0 W/kg in total. We then investigated the correlates of testicular function such as sperm count in the cauda epididymis, testosterone concentration in the blood serum, malondialdehyde concentrations in the testes and epididymis, frequency of spermatogenesis stages, and appearance of apoptotic cells in the testes. We also immunoblotted for p53, bcl2, GADD45, cyclin G, and HSP70 in the testes of sham- and combined RF-exposed animals. Based on the results, we concluded that simultaneous exposure to CDMA and WCDMA RF-EMFs at 4.0 W/kg SAR did not have any observable adverse effects on rat spermatogenesis., (Copyright © 2011 Wiley Periodicals, Inc.)

Published

2012

6. The lack of histological changes of CDMA cellular phone-based radio frequency on rat testis.

Author

Lee HJ, Pack JK, Kim TH, Kim N, Choi SY, Lee JS, Kim SH, and Lee YS

Subjects

Animals, Apoptosis radiation effects, Body Temperature radiation effects, Body Weight radiation effects, Electromagnetic Fields adverse effects, Epididymis cytology, Epididymis metabolism, Epididymis radiation effects, Male, Malondialdehyde metabolism, Organ Size radiation effects, Radiation Dosage, Rats, Rats, Sprague-Dawley, Sperm Count, Spermatogenesis radiation effects, Spermatozoa cytology, Spermatozoa metabolism, Spermatozoa radiation effects, Testis metabolism, Testis physiology, Cell Phone, Radio Waves adverse effects, Testis cytology, Testis radiation effects

Abstract

We examined the histological changes by radiofrequency (RF) fields on rat testis, specifically with respect to sensitive processes such as spermatogenesis. Male rats were exposed to 848.5 MHz RF for 12 weeks. The RF exposure schedule consisted of two 45-min RF exposure periods, separated by a 15-min interval. The whole-body average specific absorption rate (SAR) of RF was 2.0 W/kg. We then investigated correlates of testicular function such as sperm counts in the cauda epididymis, malondialdehyde concentrations in the testes and epididymis, frequency of spermatogenesis stages, germ cell counts, and appearance of apoptotic cells in the testes. We also performed p53, bcl-2, caspase 3, p21, and PARP immunoblotting of the testes in sham- and RF-exposed animals. Based on these results, we concluded that subchronic exposure to 848.5 MHz with 2.0 W/kg SAR RF did not have any observable adverse effects on rat spermatogenesis.

Published

2010

7. Effects of 60 Hz 14 microT magnetic field on the apoptosis of testicular germ cell in mice.

Author

Kim YW, Kim HS, Lee JS, Kim YJ, Lee SK, Seo JN, Jung KC, Kim N, and Gimm YM

Subjects

Animals, Cells, Cultured, Dose-Response Relationship, Radiation, Electricity, Electromagnetic Fields, Male, Mice, Mice, Inbred BALB C, Radiation Dosage, Spermatozoa cytology, Testis cytology, Apoptosis radiation effects, Spermatozoa physiology, Spermatozoa radiation effects, Testis physiology, Testis radiation effects

Abstract

We recently reported that continuous exposure, for 8 weeks, of extremely low frequency (ELF) magnetic field (MF) of 0.1 or 0.5 mT might induce testicular germ cell apoptosis in BALB/c mice. In that report, the ELF MF exposure did not significantly affect the body weight or testicular weight, but significantly increased the incidence of testicular germ cell death. In the present study, we aimed to further characterize the effect of a 16-week continuous exposure to ELF MF of 14 or 200 microT on testicular germ cell apoptosis in mice. There were no significant effects of MF on body weight and testosterone levels in mice. In TUNEL staining (In situ terminal deoxynucleotidyl transferase-mediated deoxy-UTP nick end labeling), germ cells showed a significantly higher apoptotic rate in exposed mice than in sham controls (P < 0.001). TUNEL-positive cells were mainly spermatogonia. In an electron microscopic study, degenerating spermatogonia showed condensation of nuclear chromatin similar to apoptosis. These results indicate that apoptosis may be induced in spermatogenic cells in mice by continuous exposure to 60 Hz MF of 14 microT., ((c) 2008 Wiley-Liss, Inc.)

Published

2009

8. Effect of temporal synergism of neural oscillations on photorefractoriness in Japanese quail (Coturnix coturnix japonica).

Author

Chaturvedi CM, Tiwari AC, and Kumar P

Subjects

5-Hydroxytryptophan pharmacology, Animals, Circadian Rhythm drug effects, Circadian Rhythm radiation effects, Cloaca, Dopamine Agents pharmacology, Drug Synergism, Exocrine Glands drug effects, Exocrine Glands physiology, Exocrine Glands radiation effects, Levodopa pharmacology, Light, Male, Organ Size, Periodicity, Photoperiod, Seasons, Serotonin Agents pharmacology, Testis drug effects, Testis radiation effects, Circadian Rhythm physiology, Coturnix physiology, Dopamine physiology, Serotonin physiology, Testis physiology

Abstract

Circadian rhythms in many metabolic functions including neural (transmitters) and hormonal secretion appear to change with physiological condition. It is also reported that seasonal changes in photoperiodism/reproduction and other metabolic conditions may result from a temporal interaction of circadian neural oscillations that change seasonally. To test this hypothesis, the present study was designed to study the effect of temporal synergism of two neural oscillations (serotonin and dopamine) on relative photorefractoriness of Japanese quail. Serotonin and dopamine precursor drugs (5-HTP, 5-hydroxytryptophan and L-DOPA, L-dihydroxyphenylalanine) were administered (intraperitonially 5 mg/100 g body weight) at six different time intervals of 0, 4, 8, 12, 16 and 20 hr in sexually mature quail (>12 weeks old). The birds of control group received two daily injections of normal saline. The treatment was given for 13 days in continuous condition of light and then the quail were shifted to intermediate daylength (LD 13.5:10.5 for experiment 1) and short daylength (LD 8:16 for experiment 2). Six weeks following treatment, birds in intermediate daylength showed regressed cloacal gland and testicular activity except in 12-hr group, which exhibited gonadostimulatory condition. But birds of all the groups in short daylength showed complete regression of cloacal gland after 4 weeks of the treatment. In experiment 3, reproductively quiescent relative photorefractory quail maintained under intermediate daylength (LD 13.5:10.5) received 13 daily injections of 5-HTP and L-DOPA at the interval of 12 hr. At 6 weeks post-treatment, it was observed that unlike cloacal gland of control quail, which remained regressed, that of 12-hr quail showed significant development. These findings indicate that 12-hr temporal interaction of 5-HTP and L-DOPA administration maintained reproductive system in stimulated condition and prevented reproductive regression in photorefractory quail, but did not prevent the onset of scotosensitivity. It is concluded that the 12-hr temporal relationship of circadian serotonergic and dopaminergic oscillations not only eliminates photorefractoriness but may also re-establish photosensitivity in relative photorefractory quail. These findings suggest the regulatory role of neural oscillations and their temporal interaction in the regulation of neuroendocrine-gonadal axis with special reference to photosensitivity/refractoriness.

Published

2006

9. Flow cytometric characterization of viable meiotic and postmeiotic cells by Hoechst 33342 in mouse spermatogenesis.

Author

Bastos H, Lassalle B, Chicheportiche A, Riou L, Testart J, Allemand I, and Fouchet P

Subjects

Animals, Gamma Rays, Male, Mice, Mice, Inbred C57BL, Mice, Inbred Strains, Mice, Transgenic, Spermatocytes metabolism, Spermatocytes radiation effects, Spermatogenesis radiation effects, Staining and Labeling, Testis radiation effects, Benzimidazoles chemistry, Flow Cytometry methods, Meiosis, Radiation-Sensitizing Agents chemistry, Spermatogenesis physiology, Testis cytology

Abstract

Background: Spermatogenesis in adult is a complex stepwise process leading to terminally differentiated spermatozoa. The cellular heterogeneity of testis renders complex the studies on molecular aspects of this differentiation process. Analysis of the regulation of adult spermatogenesis would undoubtedly benefit from the development of techniques to characterize each germinal differentiation step., Methods: Hoechst 33342 staining of mouse testicular cells allows characterization of an enriched population in germinal stem cell and spermatogonia, called side population. In this study, we examined the definition of the various germinal populations stained by Hoechst 33342, notably meiotic and postmeiotic cells., Results: Preleptotene spermatocytes, spermatocyte I, spermatocyte II, and round and elongated spermatids were discriminated by Hoechst 33342 staining. In addition, we associated differentiation of spermatocyte I through leptotene to diplotene with changes in Hoechst 33342 red fluorescence pattern., Conclusions: Hoechst 33342 staining of viable germinal cells constitutes a valuable tool to study normal and impaired mouse adult spermatogenesis or to isolate viable cells from various differentiation stages for studies of molecular mechanisms regulating spermatogenesis., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

10. Gamma-ray exposure accelerates spermatogenesis of medaka fish, Oryzias latipes.

Author

Kuwahara Y, Shimada A, Mitani H, and Shima A

Subjects

Animals, Dose-Response Relationship, Radiation, Male, Testis radiation effects, Gamma Rays, Oryzias physiology, Spermatogenesis radiation effects

Abstract

To examine the spermatogenesis (and spermiogenesis) cell population kinetics after gamma-irradiation, the frequency and fate of BrdU-labeled pre-meiotic spermatogenic cells (spermatogonia and pre-leptotene spermatocytes) and spermatogonial stem cells (SSCs) of the medaka fish (Oryzias latipes) were examined immunohistochemically and by BrdU-labeling. After 4.75 Gy of gamma-irradiation, a statistically significant decrease in the frequency of BrdU-labeled cells was detected in the SSCs, but not in pre-meiotic spermatogenic cells. The time necessary for differentiation of surviving pre-meiotic spermatogenic cells without delay of germ cell development was shortened. More than 90% of surviving pre-meiotic spermatogenic cells differentiated into haploid cells within 5 days after irradiation, followed by a temporal spermatozoa exhaust in the testis. Next, spermatogenesis began in the surviving SSCs. However, the outcome was abnormal spermatozoa, indicating that accelerated maturation process led to morphological abnormalities. Moreover, 35% of the morphologically normal spermatozoa were dead at day 6. Based on these results, we suggest a reset system; after irradiation most surviving spermatogenic cells, except for the SSCs, are prematurely eliminated from the testis by spermatogenesis (and spermiogenesis) acceleration, and subsequent spermatogenesis begins with the surviving SSCs, a possible safeguard against male germ cell mutagenesis., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

11. Whole body exposure of rats to microwaves emitted from a cell phone does not affect the testes.

Author

Dasdag S, Zulkuf Akdag M, Aksen F, Yilmaz F, Bashan M, Mutlu Dasdag M, and Salih Celik M

Subjects

Animals, Body Temperature radiation effects, Cell Phone classification, Dose-Response Relationship, Radiation, Male, Malondialdehyde analysis, Malondialdehyde metabolism, Rats, Rats, Sprague-Dawley, Reference Values, Sperm Count, Spermatozoa cytology, Spermatozoa radiation effects, Testis cytology, Tumor Suppressor Protein p53 immunology, Cell Phone instrumentation, Microwaves, Testis physiology, Testis radiation effects, Whole-Body Irradiation

Abstract

The objective of this study was to investigate the effects of radiofrequency radiation emitted from cellular phones on the lipid composition, malondialdehyde concentration, p53 immune reactivity, sperm count, morphology, histological structure of testes, and on rectal temperature of rats exposed to microwave radiation emitted from cellular phones. Sixteen Spraque-Dawley rats were separated into two groups of eight, sham exposed (control) and experimental. The rats were confined in plexiglas cages specially designed for this study, and cellular phones were placed 0.5 cm under the cages. For the experimental group, cellular phones were activated 20 min per day (7 days a week) for 1 month. For the control group, the cellular phones were placed beneath the cages for 20 min a day, but the phones were turned off. Rectal temperatures were measured weekly. For 250 mW radiated power, the whole body average SAR (rms) is 0.52 W/kg and 1 g averaged peak SAR (rms) is 3.13 W/kg. The Mann-Whitney U-test was used for statistical comparisons of groups. No statistically significant alteration in any of the endpoints was noted. This study found no evidence suggesting an adverse effect of cell phone exposure on measures of testicular function or structure., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

12. Heavy-ion-induced mutations in the gpt delta transgenic mouse: comparison of mutation spectra induced by heavy-ion, X-ray, and gamma-ray radiation.

Author

Masumura K, Kuniya K, Kurobe T, Fukuoka M, Yatagai F, and Nohmi T

Subjects

Aerospace Medicine, Animals, DNA Damage, DNA Mutational Analysis, Escherichia coli Proteins, Free Radicals, Gamma Rays, Homozygote, Kidney radiation effects, Liver pathology, Male, Mice, Mice, Transgenic, Oxygen metabolism, Pentosyltransferases, Spleen radiation effects, Testis radiation effects, Time Factors, Tissue Distribution, X-Rays, Bacterial Proteins genetics, Carbon adverse effects, DNA radiation effects, Heavy Ions, Mutation, Proteins

Abstract

Heavy-ion radiation accounts for the major component of absorbed cosmic radiation and is thus regarded as a significant risk during long-term manned space missions. To evaluate the genetic damage induced by heavy particle radiation, gpt delta transgenic mice were exposed to carbon particle irradiation and the induced mutations were compared with those induced by reference radiations, i.e., X-rays and gamma-rays. In the transgenic mouse model, deletions and point mutations were individually identified as Spi(-) and gpt mutations, respectively. Two days after 10 Gy of whole-body irradiation, the mutant frequencies (MFs) of Spi(-) and gpt were determined. Carbon particle irradiation significantly increased Spi(-) MF in the liver, spleen, and kidney but not in the testis, suggesting an organ-specific induction of mutations by heavy-ion irradiation. In the liver, the potency of inducing Spi(-) mutation was highest for carbon particles (3.3-fold increase) followed by X-rays (2.1-fold increase) and gamma-rays (1.3-fold increase), while the potency of inducing gpt mutations was highest for gamma-rays (3.3-fold increase) followed by X-rays (2.1-fold increase) and carbon particles (1.6-fold increase). DNA sequence analysis revealed that carbon particles induced deletions that were mainly more than 1,000 base pairs in size, whereas gamma-rays induced deletions of less than 100 base pairs and base substitutions. X-rays induced various-sized deletions and base substitutions. These results suggest that heavy-ion beam irradiation is effective at inducing deletions via DNA double-strand breaks but less effective than X-ray and gamma-ray irradiation at producing oxidative DNA damage by free radicals., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

13. X-irradiation--induced changes in the progression of type B spermatogonia and preleptotene spermatocytes.

Author

West A and Lähdetie J

Subjects

Animals, Cell Death, G1 Phase, G2 Phase, Male, Meiosis, Mitosis, Rats, Rats, Sprague-Dawley, S Phase, Spermatocytes cytology, Spermatogonia cytology, Testis cytology, Testis radiation effects, Spermatocytes radiation effects, Spermatogonia radiation effects

Abstract

In response to induced DNA damage, proliferating cells arrest in their cell cycle or go into apoptosis. Ionizing radiation is known to induce degeneration of mammalian male germ cells. The effects on cell-cycle progression, however, have not been thoroughly studied due to lack of methods for identifying effects on a particular cell-cycle phase of a specific germ cell type. In this study, we have utilized the technique for isolation of defined segments of seminiferous tubules to examine the cell-cycle progression of irradiated rat mitotic (type B spermatogonia) and meiotic (preleptotene spermatocytes) G1/S cells. Cells irradiated as type B spermatogonia in mitotic S phase showed a small delay in progression through meiosis. Thus, it seems that transient arrest in the progression can occur in the otherwise strictly regulated progression of germ cells in the seminiferous epithelium. Contrary to the arrest observed in type B spermatogonia and in previous studies on somatic cells, X-irradiation did not result in a G1 delay in meiotic cells. This lack of arrest occurred despite the presence of unrepaired DNA damage that was measured when the cells had progressed through the two meiotic divisions.

Published

2001

14. Gonadal and sexual function in men treated for childhood cancer.

Author

Relander T, Cavallin-Ståhl E, Garwicz S, Olsson AM, and Willén M

Subjects

Adolescent, Adult, Androgens therapeutic use, Body Constitution, Gonadal Steroid Hormones blood, Humans, Interviews as Topic, Male, Registries, Retrospective Studies, Sperm Count drug effects, Sperm Count radiation effects, Surveys and Questionnaires, Survivors, Sweden, Testicular Diseases etiology, Testicular Diseases physiopathology, Testis physiopathology, Antineoplastic Combined Chemotherapy Protocols adverse effects, Neoplasms drug therapy, Neoplasms radiotherapy, Sexuality drug effects, Sexuality radiation effects, Testis drug effects, Testis radiation effects

Abstract

Background: Insofar as a majority of children with malignant diseases are cured, the late effects of treatment are of major importance., Procedure: A retrospective study was conducted of gonadal and sexual function of 77 adult male survivors of childhood malignancies treated and cured at a single center from 1970 to 1989 and followed for a median of 13 years. The study included an interview, physical examination, sperm test, and hormonal analyses., Results: One-third of the patients were treated for hematological malignancies, one-third for CNS tumors, and one-third for other malignancies. Eleven patients required androgen substitution after treatment for tumors of the pituitary-hypothalamic region or acute lymphoblastic leukemia including testicular irradiation and/or orchiectomy. In three patients the testicles were removed. The other eight had small testicles, and those providing sperm samples had azoospermia, and sexual function was disturbed in most of them. Most of the remaining 66 patients had small testicles. Normozoospermia was found in 63%, oligozoospermia in 20%, and azoospermia in 17%. Although there was a highly significant correlation between testicular volume and sperm test, 25% of patients with testicles of <10 ml had normozoospermia. Sexual function was normal in 46 patients, and they were married at a frequency comparable to the normal population. Twenty-one patients had no signs of gonadal dysfunction., Conclusions: Patients treated for tumors in the hypothalamic-pituitary region or treated with testicular irradiation or with high doses of alkylating agents had severe gonadal and sexual dysfunction. Most of the other patients had good prospects for preserved gonadal and sexual function., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

15. Apoptosis regulation in the testis: involvement of Bcl-2 family members.

Author

Beumer TL, Roepers-Gajadien HL, Gademan IS, Lock TM, Kal HB, and De Rooij DG

Subjects

Animals, Humans, Male, Mice, Mice, Knockout, Testis pathology, Testis radiation effects, bcl-2-Associated X Protein, bcl-X Protein, Apoptosis, Proto-Oncogene Proteins biosynthesis, Proto-Oncogene Proteins c-bcl-2 biosynthesis, Testis metabolism

Abstract

Using immunohistochemical techniques and Western blot analysis, the possible role of Bcl-2 family members Bax, Bcl-2, Bcl-x(s), and Bcl-x(l) in male germ cell density-related apoptosis and DNA damage induced apoptosis was studied. The apoptosis inducer Bax was localized in all mouse and human testicular cell types, but despite the fact that irradiation induces its transcriptional activator, p53 in the human, Bax expression did not change after irradiation. The apoptosis inhibitor Bcl-2 appeared to be present in late spermatocytes and spermatids and was up-regulated in these cells after a dose of 4 Gy of X-rays. Finally, Bcl-x was expressed in both the mouse and human testis. The apoptosis inhibiting long transcripts of Bcl-x, Bcl-x(l), were expressed in spermatogonia and spermatocytes and were up-regulated after X-irradiation. The apoptosis inducing shorter form of Bcl-x, Bcl-x(s), was found to be expressed only in somatic cells, like peritubular and Leydig cells. While Bax is important in germ cell density regulation, Bax expression did not change after DNA damage inflicted by X-radiation. Hence, spermatogonial apoptosis after X-irradiation may not be induced via the apoptosis inducer Bax. Furthermore, as Bcl-x(l), but not Bcl-2, is present in spermatogonia and spermatocytes, Bcl-x(l) may regulate germ cell density, possibly in cooperation with Bax. As Bcl-x(l) expression is enhanced after irradiation, this protein may also have a role in the response of spermatogonia and spermatocytes to irradiation., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

16. Development of mouse testis and epididymis following intrauterine exposure to a static magnetic field.

Author

Tablado L, Soler C, Núñez M, Núñez J, and Pérez-Sánchez F

Subjects

Aging radiation effects, Animals, Animals, Newborn, Epididymis growth & development, Epididymis pathology, Female, Litter Size radiation effects, Male, Mice, Mice, Inbred Strains, Organ Size radiation effects, Pregnancy, Testis growth & development, Testis pathology, Weight Gain radiation effects, Epididymis radiation effects, Magnetics, Prenatal Exposure Delayed Effects, Testis radiation effects

Abstract

In order to test if the in utero exposure to static magnetic fields affects testis and epididymis development in mice, females were exposed to 0.5-0.7 T, generated by a permanent magnet, from day 7 of gestation to the day of birth. No significant differences were found between exposed and sham-exposed animals with respect to body weight gain of dam during the gestational period, litter size, body weight of male pups at the day of birth, and body or testis-epididymis weight gain of pups from birth to day 35. Histopathologic evaluation of testis and epididymis of pups of 1, 5, 15, and 35 days of age showed no detectable alterations due to in utero exposure to static magnetic fields., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

17. Reproductive physiology and treatment-related loss of sex hormone production.

Author

Sklar C

Subjects

Adult, Child, Female, Gonadal Steroid Hormones metabolism, Gonadal Steroid Hormones radiation effects, Humans, Male, Neoplasms drug therapy, Neoplasms radiotherapy, Ovary drug effects, Ovary radiation effects, Radiation Injuries etiology, Testis drug effects, Testis radiation effects, Antineoplastic Agents adverse effects, Radiation Injuries physiopathology, Reproduction drug effects, Reproduction radiation effects, Survivors

Published

1999

18. Pharmacological protection of the gonads.

Author

Howell SJ and Shalet SM

Subjects

Adult, Animals, Child, Cryopreservation, Female, Humans, Male, Ovary drug effects, Ovary physiology, Ovary radiation effects, Radiation Injuries etiology, Semen Preservation, Testis drug effects, Testis physiology, Testis radiation effects, Antineoplastic Agents adverse effects, Infertility prevention & control, Neoplasms drug therapy, Neoplasms radiotherapy, Radiation Injuries physiopathology, Survivors

Published

1999

19. P21(Cip1/WAF1) expression in the mouse testis before and after X irradiation.

Author

Beumer TL, Roepers-Gajadien HL, Gademan LS, Rutgers DH, and de Rooij DG

Subjects

Animals, Apoptosis, Blotting, Western, Cyclin-Dependent Kinase Inhibitor p21, Male, Mice, RNA, Messenger analysis, Testis metabolism, Cyclins biosynthesis, Testis radiation effects

Abstract

During spermatogenesis, the radiosensitivity of testicular cells changes considerably. To investigate the molecular mechanisms underlying these radiosensitivity differences, p21(Cip1/WAF1) expression was studied before and after irradiation in the adult mouse testis. P21(Cip1/WAF1) is a cyclin-dependent kinase inhibitor (CDI) and has a role in the G1/S checkpoint and differentiation. P21(Cip1/WAF1) expression was observed in the normal testis, using Western blotting analysis. After a dose of 4 Gy, but not after 0.3 Gy, an increase in p21(Cip1/WAF1) expression could be determined in whole testis lysates. To investigate which germ cells are involved in p21(Cip1/WAF1) protein expression, immunohistochemical analysis was performed on irradiated testis. In the normal testis a weak staining for p21(Cip1/WAF1) was found in pachytene spermatocytes in epithelial stage V up to step 5 spermatids. A dose of 4 Gy of X-irradiation resulted in a transient increase of p21(Cip1/WAF1) staining in these cells with a maximum at 6 h post irradiation, despite the fact that the irradiation did not induce an increase in the number of apoptotic spermatocytes. When a dose of 0.3 Gy was given, no increase in p21(Cip1/WAF1) staining was observed. Using the TUNEL technique, a 10-fold increase in apoptotic spermatogonia was found after a dose of 4 Gy. However, no staining for p21(Cip1/WAF1) was observed in spermatogonia, suggesting that these cells do not undergo a p21(Cip1/WAF1)-induced G1 arrest prior to DNA repair or apoptosis. These data imply that p21(Cip1/WAF1) is a factor which could be important during the meiotic prophase in spermatocytes and repair mechanisms in these cells, but not in spermatogonial cell cycle delay or apoptosis induction.

Published

1997

20. Development of chicken embryos exposed to an intermittent horizontal sinusoidal 50 Hz magnetic field.

Author

Veicsteinas A, Belleri M, Cinquetti A, Parolini S, Barbato G, and Molinari Tosatti MP

Subjects

Animals, Body Weight, Brain abnormalities, Brain embryology, Brain radiation effects, Cell Survival, Chick Embryo abnormalities, Chick Embryo growth & development, Chick Embryo pathology, Collagen radiation effects, Environmental Exposure, Extracellular Matrix Proteins radiation effects, Fibronectins radiation effects, Heart embryology, Heart radiation effects, Heart Defects, Congenital embryology, Immunohistochemistry, Laminin radiation effects, Liver abnormalities, Liver embryology, Liver radiation effects, Male, Testis abnormalities, Testis embryology, Testis radiation effects, Chick Embryo radiation effects, Electromagnetic Fields

Abstract

The effects of intermittent exposure (2 h on/22 h off) to a 200 microT horizontal, sinusoidally oscillating (50 Hz) magnetic field were studied in 210 fertilized chicken eggs. Two hundred ten control eggs (sham-exposed) were incubated in the same chamber as the experimental eggs. Chick embryos were examined for developmental anomalies and maturity stage after 48 h of incubation. Immunohistochemical analysis of extracellular membrane components (laminin, fibronectin, and type IV collagen) were conducted on day 7 and histological examinations for malformations of brain, liver, and heart, on days 7, 12, and 18 of incubation. Furthermore, egg fertility and egg weights were evaluated on days 2, 7, 12, and 18. The investigation also measured the body weight of chickens for 90 days from hatching and included histological analysis of body organs. Each variable was investigated blind. Statistical comparison between exposed and sham-exposed values did not show significant differences in any of the variables investigated. Thus, it appears that the exposure of embryos to an intermittent 200 microT magnetic field at 50 Hz does not cause developmental anomalies, changes in maturity stage, alterations in distribution of extracellular membrane components, or malformations in the brain, liver, or heart. Moreover, there were no differences in body weight, morphology, or histology of central nervous system, liver, heart, or testis in 90-day-old chickens hatched from exposed in comparison to sham-exposed eggs.

Published

1996

21. Effects of X-irradiation on mouse testicular cells and sperm chromatin structure.

Author

Sailer BL, Jost LK, Erickson KR, Tajiran MA, and Evenson DP

Subjects

Acridine Orange, Animals, Chromatin ultrastructure, Dose-Response Relationship, Radiation, Flow Cytometry, Male, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Organ Size radiation effects, Sperm Head ultrastructure, Spermatogonia radiation effects, Spermatozoa ultrastructure, Testis anatomy & histology, Testis cytology, X-Rays, Spermatozoa radiation effects, Testis radiation effects

Abstract

The testicular regions of male mice were exposed to x-ray doses ranging from 0 to 400 rads. Forty days after exposure the mice were killed and the testes and cauda epididymal sperm removed surgically. Flow cytometric measurements of acridine orange stained testicular samples indicated a repopulation of testicular cell types following x-ray killing of stem cells. Cauda epididymal sperm were analyzed by the sperm chromatin structure assay (SCSA), a flow cytometric measurement of the susceptibility of the sperm nuclear DNA to in situ acid denaturation. The SCSA detected increased susceptibility to DNA denaturation in situ after 12.5 rads of x-ray exposure, with significant increases following 25 rads. Abnormal sperm head morphology was not significantly increased until the testes were exposed to 60 rads of x-rays. These data suggest that the SCSA is currently the most sensitive, non-invasive method of detecting x-ray damage to testicular stem spermatogonia.

Published

1995

22. Effects of 50 Hz magnetic fields on mouse spermatogenesis monitored by flow cytometric analysis.

Author

De Vita R, Cavallo D, Raganella L, Eleuteri P, Grollino MG, and Calugi A

Subjects

Animals, Body Temperature, Cell Differentiation radiation effects, DNA analysis, DNA radiation effects, Flow Cytometry, Haploidy, Male, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Inbred Strains, Spermatids radiation effects, Spermatocytes cytology, Spermatocytes radiation effects, Spermatogenesis genetics, Spermatogonia cytology, Spermatogonia radiation effects, Testis cytology, Testis radiation effects, Time Factors, Electromagnetic Fields, Magnetics, Spermatogenesis radiation effects

Abstract

Flow cytometry (FCM) was performed to monitor the cellular effects of extremely-low-frequency magnetic field on mouse spermatogenesis. Groups of five male hybrid F1 mice aged 8-10 weeks were exposed to 50 Hz magnetic field. The strength of the magnetic field was 1.7 mT. Exposure times of 2 and 4 h were chosen. FCM measurements were performed 7, 14, 21, 28, 35, and 42 days after treatment. For each experimental point, a sham-treated group was used as a control. The possible effects were studied by analyzing the DNA content distribution of the different cell types involved in spermatogenesis and using the elongated spermatids as the reference population. The relative frequencies of the various testicular cell types were calculated using specific software. In groups exposed for 2 h, no effects were observed. In groups exposed for 4 h, a statistically significant (P < 0.001) decrease in elongated spermatids was observed at 28 days after treatment. This change suggests a possible cytotoxic and/or cytostatic effect on differentiating spermatogonia. However, further studies are being carried out to investigate the effects of longer exposure times.

Published

1995

23. Germ cell-Sertoli cell interactions: regulation by germ cells of the stage-specific expression of CP-2/cathepsin L mRNA by Sertoli cells.

Author

Wright WW, Zabludoff SD, Penttilä TL, and Parvinen M

Subjects

Animals, Cathepsin L, Cell Communication, Cysteine Endopeptidases, In Vitro Techniques, Male, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Sertoli Cells enzymology, Sertoli Cells physiology, Spermatogenesis, Spermatozoa enzymology, Spermatozoa physiology, Testis cytology, Testis radiation effects, Cathepsins genetics, Endopeptidases, Gene Expression Regulation, Sertoli Cells cytology, Spermatozoa cytology

Abstract

CP-2/cathepsin L mRNA is expressed primarily by rat Sertoli cells within stage VI-VIII seminiferous tubules. To test whether germ cells regulated this expression, we examined if separating Sertoli cells from specific germ cells affected expression of this transcript in Sertoli cells. First, Sertoli cells were isolated from adult (90-day-old) and immature (25-day-old) rats and levels of this transcript measured immediately or after 1, 3 and 5 days in culture. Results demonstrated that immediately upon isolation, CP-2/cathepsin L mRNA levels were significantly higher in mature cells. However, after 1 day in culture, the levels of this transcript increased in immature cells and remained high in mature cells. We therefore conclude that in vivo, a subset of germ cells inhibit the expression of CP-2/cathepsin L mRNA by immature Sertoli cells. Second, to examine the effect of specific germ cells on CP-2/cathepsin L mRNA expression, we exposed the testes of mature rats to 3 Gy of gamma-radiation and analyzed stage-specific expression of this transcript at varying times during maturation depletion and subsequent germ cell restoration. Loss of spermatogonia or spermatocytes was without effect. However, when pachytene spermatocytes through step 14 spermatids were depleted, expression at stages VI-VIII was reduced by half and expression at stages IX-I was increased 14-fold. These changes resulted in the loss of stage-specific expression of CP-2/cathepsin L mRNA by Sertoli cells. Finally, stage VI-VIII tubules, depleted primarily in step 15-19 spermatids, had levels of CP-2/cathepsin L mRNA that were 60% of control. However, stage-specific expression of this transcript was detected in these tubules. In contrast to what we noted with CP-2/cathepsin L mRNA, loss and restoration of germ cells had no effect on Sertoli cell levels of SGP-2 mRNA, indicating that testicular irradiation had no overall effect on Sertoli cell function. Taken together, these data suggest that the stage-specific expression of the CP-2/cathepsin L gene results from the sequential stimulation and inhibition of Sertoli cells by germ cells, that pachytene spermatocytes through step 14 spermatids are required for this stage-specific expression and that step 18 and 19 spermatids amplify this expression at stages VI-VIII.

Published

1995

24. Effects of prenatal exposure to 50 Hz magnetic fields on development in mice: II. Postnatal development and behavior.

Author

Sienkiewicz ZJ, Robbins L, Haylock RG, and Saunders RD

Subjects

Animals, Avoidance Learning drug effects, Body Weight radiation effects, Female, Hair growth & development, Hair radiation effects, Male, Mice, Mice, Inbred Strains, Multivariate Analysis, Poisson Distribution, Pregnancy, Regression Analysis, Sex Characteristics, Sexual Maturation radiation effects, Testis growth & development, Testis radiation effects, Tooth Eruption radiation effects, Vagina growth & development, Vagina radiation effects, Behavior, Animal radiation effects, Growth radiation effects, Magnetics, Motor Activity radiation effects, Prenatal Exposure Delayed Effects

Abstract

To investigate the potential of magnetic fields to act as a behavioral teratogen, pregnant CD1 mice were exposed or sham-exposed for all of gestation to a 50 Hz/20 mT magnetic field. Maturation of offspring was assessed using a range of standard developmental indices (eye opening, pinna detachment, hair coat, tooth eruption, sexual maturity, and weight) and simple reflexive behaviors (air righting, surface righting, forepaw grasp, cliff avoidance, and negative geotaxis). Activity and coordination levels were explored in juvenile and adult mice using an open field arena, a head-dip board, an accelerating Rotarod, and a residential activity wheel. All assessments were carried out without knowledge of exposure condition. Results from 168 sham-exposed mice from 21 litters and from 184 exposed mice from 23 litters were compared using survival analysis techniques and multivariate regression methods. Three possible field-dependent effects were found: Exposed animals performed the air righting reflex earlier (P < 0.01); exposed males (but not females) were significantly lighter in weight (P = 0.008) at 30 days of age; and exposed animals remained on a Rota-rod for less time as juveniles (P = 0.03). Some of these results have not been reported in other studies and may reflect spurious statistical significance, although some effect of magnetic field exposure cannot be ruled out. Overall, these results suggest that prenatal exposure to a 50 Hz magnetic field does not engender any gross impairments in the postnatal development or behavior of mice. This does not preclude such exposure affecting more subtle aspects of behavior.

Published

1994

25. Prophylactic cranial irradiation increases the risk of testicular damage in adult males surviving ALL in childhood.

Author

Siimes MA, Lie SO, Andersen O, Marky I, Rautonen J, and Hertz H

Subjects

Adolescent, Adult, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Body Height radiation effects, Child, Child, Preschool, Combined Modality Therapy, Cyclophosphamide administration & dosage, Cyclophosphamide adverse effects, Cyclophosphamide pharmacology, Cyclophosphamide therapeutic use, Follicle Stimulating Hormone blood, Humans, Infant, Luteinizing Hormone blood, Male, Puberty drug effects, Puberty radiation effects, Risk Factors, Testis drug effects, Testosterone blood, Testosterone therapeutic use, Cranial Irradiation, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor Cell Lymphoblastic Leukemia-Lymphoma radiotherapy, Testicular Diseases etiology, Testis radiation effects

Abstract

By combining three series of Scandinavian patients, we were able to compare the late testicular sequelae in 41 adult males whose therapy had included chemotherapy alone or chemotherapy with cranial irradiation without other radiotherapy for ALL in childhood. In multivariate analysis, cranial irradiation was associated with a decrease of 5.7 (95% confidence limits 1.5-9.9) cm (P = 0.010) in height, and a decrease of 4.8 (0.3-9.2) ml (P = 0.036) in testicle size. Cyclophosphamide was associated with increases of 8.2 (-0.5-16.9) (P = 0.065) and 3.9 (0.3-7.4) U/L (P = 0.036) in serum FSH and LH concentrations, respectively. Of the 12 patients who had received both cranial irradiation and cyclophosphamide therapy, 4 (33%) had delayed pubertal development as compared with 1 (3.5%) of the other 29 patients (P = 0.008). Patients 12-16 years of age at diagnosis had larger testicles (P = 0.051) and higher testosterone concentrations (P = 0.026) than others. Neither sexual activity nor semen findings correlated with the preceding treatment. Our data indicate that prophylactic cranial irradiation may be associated with impaired growth and pubertal development in boys with ALL.

Published

1993

26. Flow cytometric studies in reproductive toxicology.

Author

Spanò M and Evenson DP

Subjects

Animals, DNA Damage, Male, Spermatozoa cytology, Spermatozoa drug effects, Spermatozoa radiation effects, Testis cytology, Testis drug effects, Testis radiation effects, Toxicology methods, Flow Cytometry methods, Reproduction drug effects, Reproduction radiation effects

Published

1991

27. The estimation of damage to testicular cell lineages.

Author

de Rooij DG and Vergouwen RP

Subjects

Animals, Cell Division radiation effects, Humans, Leydig Cells radiation effects, Male, Primates, Sertoli Cells radiation effects, Spermatogenesis radiation effects, Spermatogonia radiation effects, Spermatozoa radiation effects, Testis cytology, Stem Cells radiation effects, Testis radiation effects

Abstract

Assuming that spermatogonial multiplication in primates will not be fundamentally different from that in non-primates it can be deduced that Ap and Ad spermatogonia in primates are analogous to the undifferentiated spermatogonia in non-primates. Ap and Ad spermatogonia consist of single, pairs and chains of cells, among which the single cells likely are the stem cells. The single Ap are the active stem cells while the single Ad only become active after cell loss. After cell loss, Ad spermatogonia without division transform into Ap spermatogonia. The human testis is a very sensitive indicator of radiation. However, the full effect on stem cells of radiation or other insults will only become visible in the ejaculate after 3 to 5 months. When no cell loss is inflicted, damaged to Ad stem cells may remain hidden for years. Damage to spermatocytes and spermatids will become visible much earlier. However, these cells heavily depend on a normal Sertoli cell function. Hence, effects found on spermatocytes and spermatids may be caused by a direct action on these cells but also via a deteriorated Sertoli cell or Leydig cell function. The number of Sertoli cells per testis can only be affected by treatment before puberty. Leydig cell numbers can also be affected in the adult, but this cell population is more vulnerable when treatment takes place before adulthood. However, the functional capacity of the Leydig cell population as a whole only decreases after severe cell loss.

Published

1991

28. Gonadal function after 12-Gy testicular irradiation in childhood acute lymphoblastic leukaemia.

Author

Castillo LA, Craft AW, Kernahan J, Evans RG, and Aynsley-Green A

Subjects

Adolescent, Adult, Child, Combined Modality Therapy, Follicle Stimulating Hormone metabolism, Humans, Luteinizing Hormone metabolism, Male, Precursor Cell Lymphoblastic Leukemia-Lymphoma metabolism, Radioimmunoassay, Radiotherapy Dosage, Semen analysis, Testis metabolism, Testosterone metabolism, Precursor Cell Lymphoblastic Leukemia-Lymphoma radiotherapy, Testis radiation effects

Abstract

Gonadal function was assessed in 15 boys with acute lymphoblastic leukaemia (ALL) who had received testicular irradiation. The dose to the testes was 12 Gy in 12, 15 Gy in 1, and 24 Gy in 2 cases. All of those who had received 12 or 15 Gy had normal Leydig cell function, although high levels of gonadotropins suggest subclinical Leydig cell damage. The 2 who had 24 Gy had Leydig cell failure. All who were old enough to produce a semen specimen were azoospermic.

Published

1990

29. The molecular basis of ultrasonic absorption by proteins.

Author

Edmonds PD

Subjects

Animals, Heart radiation effects, Hydrogen-Ion Concentration, Kidney radiation effects, Liver radiation effects, Male, Testis radiation effects, Proteins radiation effects, Ultrasonics

Abstract

This article reviews significant advances in understanding the basis for the magnitude of ultrasonic absorption in proteins and related biological materials. Carstensen and Schwan's accurate and extensive measurements on blood and hemoglobin solutions provided the initial experimental data; these were augmented by data from measurements on aqueous solutions of gelatin, bovine serum albumin, lysozyme, various polypeptides, and amino acids. The initial frequency range of 1-10 MHz was expanded to 0.035-1000 MHz; temperature and pH dependences of absorption were studied. Theoretical approaches included consideration of the relative motion of blood cells in plasma, perturbation of water structure around macromolecules, solvation of charged entities, proton-transfer reactions, and helix-coil transitions. Proton-transfer reactions between amino and carboxylic groups and water proved to be largely responsible for the observed peaks in pH dependence of absorption coefficient; the peaks occurred in the basic and acidic regions corresponding to the pKs for titration of these groups. Such reactions could not account for the magnitude of absorption at physiological pH because only histidine titrated in this range. Extensive analysis, using relaxation theory, and measurements have shown that the proton transfer reaction between the imidazole group of histidine and hydrogen phosphate ion (in solution) provides sufficient volume change for significant ultrasonic absorption at physiological pH. Excellent agreement between theory and experiment was found with the peptide bacitracin in phosphate buffer solutions. By generalizing these results to the case of a protein, Slutsky wt al estimated maximum values of frequency-dependent absorption coefficients for "typical tissue" and found them to be correct to order of magnitude, even exceeding observed values in soft tissues in some instances, instead of being far too small as was always the case in the past. Thus, in principle, adjustment of parameters, such as pK values, could bring theory and experiment into agreement for the first time.

Published

1982

30. Dosimetry for a study of effects of 2.45-GHz microwaves on mouse testis.

Author

Cairnie AB, Hill DA, and Assenheim HM

Subjects

Abdomen radiation effects, Absorption, Animals, Body Temperature radiation effects, Male, Mice, Radiation Dosage, Microwaves, Testis radiation effects

Abstract

In order to determine the effects of microwave radiation on the testis, it is necessary to express the physical insult in animal studies in a way that can be replicated elsewhere and ultimately used as a basis for extrapolation to man. However, there is conflict--especially in chronic experiments--between the desire for precise dosimetry and the need to minimise alteration of the normal physiological functions of the animals. The compromise arrangement used in this study was to house the mice singly, in cages with limited food and water, and to irradiate them for up to 30 days (16 h/day) in an anechoic chamber. The only measurements taken routinely were of power density in the positions normally occupied by the cages. In addition, a series of absorption measurements was made in mouse carcasses: Whole-body specific absorption rate (SAR); energy-deposition patterns (determined thermographically); and local SAR in testis (using a miniature electric (E)-field probe). It was concluded that the SAR in testis was considerably less than the whole-body SAR. Exposure for 16 h at 50 mW/cm2 elevated rectal but not testis temperature, thus demonstrating the ability of the conscious mouse to regulate the temperature of its testis.

Published

1980

31. Quantification of mammalian sperm morphology by slit-scan flow cytometry.

Author

Benaron DA, Gray JW, Gledhill BL, Lake S, Wyrobek AJ, and Young IT

Subjects

Animals, Cattle, Cricetinae, Male, Mice, Rabbits, Species Specificity, Sperm Head ultrastructure, Testis radiation effects, X-Rays, Flow Cytometry methods, Spermatozoa radiation effects, Spermatozoa ultrastructure

Abstract

The head shapes of mammalian sperm have been measured by slit-scan flow cytometry (SSFCM). In this approach, the distribution of fluorescence along acriflavine stained mammalian sperm is recorded and used as a measure of head shape. Fluorescence profiles were measured for sperm from mice, rabbits, hamsters, and bulls, and for sperm from mice exposed to testicular x-irradiation from 0 to 900 rads. The profiles for sperm from nonirradiated animals were characteristic of each species and were reproducible from sperm to sperm. Some of the fluorescence profiles for sperm from the irradiated mice differed significantly from the profiles usually measured for sperm from exposed mice. An algorithm was developed to determine the frequency of these sperm. The estimated frequencies of atypical profiles correlated well (r = 0.99) with the frequencies of abnormally shaped sperm determined by microscopic scoring. The maximum SSFCM sensitivity (minimum detectable dose = 199 rad) was not as high as that for the visual assay (minimum detectable dose = 116 rad). However, only 100 profiles were measured by SSFCM at each dose while at least 500 sperm were scored visually at each dose. The sensitivity of the SSFCM assay should be increased substantially by measuring more profiles. The objective nature of SSFCM couple with the high correlation with results from the visually based assay of morphology suggests the use of SSFCM to measure frequencies of misshapen sperm when testing for mutagens or monitoring for effects of environmental contaminants.

Published

1982

32. Effects of radiation therapy and chemotherapy on testicular function.

Author

Kinsella TJ

Subjects

Humans, Male, Testis drug effects, Testis physiology, Testis radiation effects, Antineoplastic Agents adverse effects, Radiotherapy adverse effects, Testis injuries

Abstract

Chemotherapy and radiation therapy are commonly used alone or in combination in the curative management of many malignancies in adolescent and adult males. Over the last 15-20 years, the striking success in the treatment of some common cancers in reproductive males has led to increasing concern for damage to normal tissues, such as the testes, resulting from curative cancer treatment. Indeed, a major future goal for cancer treatment will be to improve on the complication-free cure rate. Inherent in achieving this goal is to understand the pathophysiology and clinical expression of testicular injury. Both chemotherapy and radiation therapy result in germ cell depletion with the development of oligo- to azoospermia and testicular atrophy. The type of drug (particularly the alkylating agents), duration of treatment, intensity of treatment, and drug combination are major variables in determining the extent and duration of testicular injury. Testicular injury with chemotherapy also appears to vary with the age of the patient at the time of treatment. Newer drug combinations are now being used which appear to have curative potential in tumors such as Hodgkin's disease and germ cell testicular cancer with less potential for testicular injury. The most accurate and complete information on radiation injury to the testes is derived from two studies of normal volunteers who received graded single doses directly to the testes. A clear dose-response relationship of clinical and histological testicular damage was found with gradual recovery occurring following doses of up to 600 cGy. While these two studies provide an important clinical data base, radiation therapy used in treating cancers involves multiple daily treatments, usually 25-35 delivered over several weeks. Additionally, direct testicular irradiation is seldom used clinically. Based on several recent studies of testicular injury following conventional radiation therapy, it appears that fractionated scatter irradiation may have a more profound effect than single dose irradiation and that recovery of normal testicular function may be delayed. Testicular injury from doses as low as 20 cGy is reflected principally in transient elevations in serum FSH levels. With higher radiation doses (greater than 200 cGy), Leydig cell dysfunction is also seen as evidenced by elevations in LH. Recently, testicular shields have been constructed which can reduce scatter dose to the testes by up to a factor of 10. Today, the routine use of a testicular shield and other technical innovations in the clinical use of radiation therapy should minimize the risk of significant testicular injury.

Published

1989

33. Hodgkin's disease: long-term effects of therapy.

Author

Rowland KM Jr and Murthy A

Subjects

Adult, Bone and Bones radiation effects, Brain radiation effects, Female, Genitalia, Female drug effects, Genitalia, Female radiation effects, Heart radiation effects, Humans, Hypothyroidism etiology, Immune System drug effects, Immune System radiation effects, Infections etiology, Leukemia chemically induced, Leukemia, Radiation-Induced etiology, Lung Diseases etiology, Male, Mechlorethamine adverse effects, Prednisone adverse effects, Procarbazine adverse effects, Radiotherapy Dosage, Splenectomy adverse effects, Testis drug effects, Testis radiation effects, Vincristine adverse effects, Antineoplastic Combined Chemotherapy Protocols adverse effects, Hodgkin Disease therapy, Radiotherapy adverse effects

Published

1986

34. Testicular function of rats following exposure to microwave radiation.

Author

Lebovitz RM and Johnson L

Subjects

Animals, Body Temperature radiation effects, Male, Organ Size radiation effects, Rats, Rats, Inbred Strains, Sperm Count, Spermatogenesis radiation effects, Microwaves adverse effects, Testis radiation effects

Abstract

Male Sprague-Dawley rats were exposed for 6 h per day for nine days to pulse-modulated microwave radiation (1.3 GHz, at 1-microseconds pulse width, 600 pulses per second). Exposures were carried out in cylindrical waveguide sections at a mean dose rate of 6.3 mW/g; sham controls were treated similarly and received no irradiation. At time periods corresponding to 0.5, 1.0, 2.0, and 4.0 cycles of the seminiferous epithelium, groups of four sham-irradiated and four irradiated rats were killed and the testes removed for analysis. Net mass of the testes, epididymides, and seminal vesicles; daily sperm production (DSP) per testis and per gram of testis; sperm morphology; and the number of epididymal sperm were determined. There were no statistically significant differences between the sham-irradiated and irradiated groups with respect to any measured variable. In a group of seven surrogate animals of similar body mass, the dose rate of 6.3 mW/g caused a net change in body temperature (via rectal probe) of 1.5 degrees C.

Published

1983

35. Prepubertal endocrine follow-up in subjects with Wilms' tumor.

Author

Perrone L, Sinisi AA, Sicuranza R, Di Tullio MT, Indolfi P, Giuliano MG, Bellastella A, and Faggiano M

Subjects

Antineoplastic Combined Chemotherapy Protocols therapeutic use, Child, Child, Preschool, Combined Modality Therapy, Female, Follow-Up Studies, Humans, Infant, Kidney Neoplasms therapy, Male, Nephrectomy, Ovary drug effects, Ovary radiation effects, Radiotherapy Dosage, Testis drug effects, Testis radiation effects, Wilms Tumor therapy, Hormones blood, Kidney Neoplasms blood, Puberty drug effects, Puberty radiation effects, Wilms Tumor blood

Abstract

Twenty-three prepubertal subjects treated for Wilms' tumor (10 males and 13 females) were endocrinologically evaluated off therapy from 0.5 to 4.08 years. They were divided into two groups: 11 subjects (6M, 5F) who had received chemotherapy only (group 1) and 12 (4M, 8F) who had in addition received abdominal radiation (1,500-3,000 rads) (group 2). Follicle-stimulating hormone (FSH), luteinizing hormone (LH), prolactin (PRL), thyroid-stimulating hormone (TSH), free thyroxine (FT4), free tri-iodo thyronine (FT3), testosterone (T), estradiol-17 beta (E2), and cortisol (F) were measured by radioimmunoassay (RIA). Plasma levels of TSH, PRL, FT4, FT3, and F were normal in both groups, as were FSH, LH, T, and E2 in group 1. In group 2, female subjects showed FSH levels significantly higher than controls, while LH and E2 were normal; male subjects showed significantly higher LH levels, while FSH and T levels were normal. These results indicate that in the treatment protocol used by us for Wilms' tumor (WT), chemotherapy does not affect endocrine function, whereas abdominal radiation seems to damage gonadal function directly. The present findings indicate that gonadal damage may be revealed in WT before puberty not only in females, as has been previously reported, but also in male subjects.

Published

1988

36. Acute, whole-body microwave exposure and testicular function of rats.

Author

Lebovitz RM and Johnson L

Subjects

Animals, Body Temperature radiation effects, Male, Rats, Rats, Inbred Strains, Rectum, Spermatogenesis radiation effects, Testis physiology, Testosterone metabolism, Time Factors, Microwaves adverse effects, Testis radiation effects

Abstract

Male Sprague-Dawley rats were exposed for 8 h to continuous-wave microwave radiation (MWR, 1.3 Ghz) at a mean specific absorbed dose rate of 9 mW/g. MWR exposure and sham-irradiation took place in unidirectionally energized cylindrical waveguide sections, within which the animals were essentially unrestrained. The MWR treatment in this setting was determined to yield an elevation of deep rectal temperature to 4.5 degrees C. The animals were taken for analysis at 6.5, 13, 26, and 52 days following treatment, which corresponded to .5, 1, 2, and 4 cycles of the seminiferous epithelium. Net mass of testes, epididymides, and seminal vesicles; daily sperm production (DSP) per testis and per gram of testis; and the number of epididymal sperm were determined. The levels of circulating follicle-stimulating hormone (FSH) and leutinizing hormone (LH) were derived via radioimmunoassay of plasma samples taken at the time of sacrifice. Despite the evident acute thermogenesis of the MWR at 9 mW/g, no substantial decrement in testicular function was found. We conclude that, in the unrestrained rat, whole body irradiation at 9 mW/g, while sufficient to induce evident hyperthermia, is not a sufficient condition for disruption of any of these key measures of testicular function.

Published

1987

37. Effects of prenatal X-irradiation on postnatal testicular development and function in the Wistar rat: development/teratology/behavior/radiation.

Author

Jensh RP and Brent RL

Subjects

Animals, Embryo, Mammalian radiation effects, Female, Litter Size radiation effects, Male, Pregnancy, Rats, Rats, Inbred Strains, Reference Values, Testis abnormalities, Testis growth & development, X-Rays, Abnormalities, Radiation-Induced, Testis radiation effects

Abstract

It is evident that significant permanent tissue hypoplasia can be produced following radiation exposure late in fetal development. Because two organs, brain and testes, are developmentally and functionally interrelated, it was of interest to determine whether fetal testicular hypoplasia was a primary or a secondary effect of fetal brain irradiation. Twenty-four pregnant Wistar strain rats were randomly assigned to one of four groups, and a laparotomy was performed on day 18 of gestation. The fetuses received sham irradiation, whole body irradiation, or only head/thorax or pelvic body irradiation at a dosage level of 1.5 Gy. Mothers were allowed to deliver and raise their offspring until postnatal day 30, when the offspring were weaned. At 60 days of age, 74 male offspring were allowed to mate with colony control females of similar age until successful insemination or until the males reached 90 days of age, when they were killed. Testes were weighed and processed for histologic examination. Direct radiation of testes, due to whole body or pelvic exposure, resulted in testicular growth retardation and significantly reduced spermatogenesis. Breeding activity of the males and the percent of positive inseminations were also slightly reduced. However, a significant percentage of male offspring receiving direct testicular radiation did produce offspring. Head/thorax-only irradiation did not adversely affect testicular growth or spermatogenesis. Therefore, the use of histologic analysis as the sole determinant of infertility may be misleading. This study indicates that testicular growth retardation and an increased infertility rate result from direct prenatal exposure of rat testes to X-radiation and are not necessarily mediated via X-irradiation effects on the central nervous system.

Published

1988

38. X-irradiation injury and repair in the germinal epithelium of male rats. II. Injury and repair in immature rats.

Author

SHAVER SL

Subjects

Animals, Humans, Male, Rats, X-Rays, Epithelium, Radiation, Testis radiation effects, Wound Healing

Published

1953

39. X-irradiation injury and repair in the germinal epithelium of male rats. I. Injury and repair in adult rats.

Author

SHAVER SL

Subjects

Animals, Humans, Male, Rats, X-Rays, Epithelium, Radiation, Testis radiation effects, Wound Healing

Published

1953

40. Role of spermatogonia in the repair of the seminiferous epithelium following x-irradiation of the rat testis.

Author

Dym M and Clermont Y

Subjects

Animals, Autoradiography, Cell Differentiation, Cell Division, Epithelium radiation effects, Histological Techniques, Male, Rats, Staining and Labeling, Testis pathology, Thymidine, Tritium, Radiation Injuries, Experimental, Spermatozoa, Testis radiation effects

Published

1970