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1.
Mol Hum Reprod ; 26(6): 374-388, 2020 06 01.
Artículo en Inglés | MEDLINE | ID: mdl-32236422

RESUMEN

Successful in vitro spermatogenesis was reported using immature mouse testicular tissues in a fragment culture approach, raising hopes that this method could also be applied for fertility preservation in humans. Although maintaining immature human testicular tissue fragments in culture is feasible for an extended period, it remains unknown whether germ cell survival and the somatic cell response depend on the differentiation status of tissue. Employing the marmoset monkey (Callithrix jacchus), we aimed to assess whether the maturation status of prepubertal and peri-/pubertal testicular tissues influence the outcome of testis fragment culture. Testicular tissue fragments from 4- and 8-month-old (n = 3, each) marmosets were cultured and evaluated after 0, 7, 14, 28 and 42 days. Immunohistochemistry was performed for identification and quantification of germ cells (melanoma-associated antigen 4) and Sertoli cell maturation status (anti-Müllerian hormone: AMH). During testis fragment culture, spermatogonial numbers were significantly reduced (P < 0.05) in the 4- but not 8-month-old monkeys, at Day 0 versus Day 42 of culture. Moreover, while Sertoli cells from 4-month-old monkeys maintained an immature phenotype (i.e. AMH expression) during culture, AMH expression was regained in two of the 8-month-old monkeys. Interestingly, progression of differentiation to later meiotic stage was solely observed in one 8-month-old marmoset, which was at an intermediate state regarding germ cell content, with gonocytes as well as spermatocytes present, as well as Sertoli cell maturation status. Although species-specific differences might influence the outcome of testis fragment experiments in vitro, our study demonstrated that the developmental status of the testicular tissues needs to be considered as it seems to be decisive for germ cell maintenance, somatic cell response and possibly the differentiation potential.


Asunto(s)
Células Germinativas/citología , Células Germinativas/metabolismo , Células de Sertoli/metabolismo , Espermatogonias/metabolismo , Animales , Callithrix , Inmunohistoquímica , Masculino , Espermatogénesis/genética , Espermatogénesis/fisiología , Testículo/fisiología
2.
Mol Hum Reprod ; 24(2): 55-63, 2018 02 01.
Artículo en Inglés | MEDLINE | ID: mdl-29294090

RESUMEN

STUDY QUESTION: Can enzymatically dispersed testicular cells from adult men reassemble into seminiferous cord-like structures in vitro? SUMMARY ANSWER: Adult human testicular somatic cells reassembled into testicular cord-like structures via dynamic interactions of Sertoli and peritubular cells. WHAT IS KNOWN ALREADY: In vitro approaches using dispersed single cell suspensions of human testes to generate seminiferous tubule structures and to initiate their functionality have as yet shown only limited success. STUDY DESIGN, SIZE, DURATION: Testes from 15 adult gender dysphoria patients (mean ± standard deviation age 35 ± 9.3 years) showing spermatogonial arrest became available for this study after sex-reassignment surgery. In vitro primary testicular somatic cell cultures were generated to explore the self-organizing ability of testicular somatic cells to form testis cords over a 2-week period. Morphological phenotype, protein marker expression and temporal dynamics of cell reassembly were analyzed. PARTICIPANTS/MATERIALS, SETTING, METHODS: Cell suspensions obtained by two-step enzymatic digestion were plated onto glass coverslips in 24-well plates. To obtain adherent somatic cells, the supernatant was discarded on Day 2. The culture of the attached cell population was continued. Reassembly into cord-like structures was analyzed daily by microscopic observations. Endpoints were qualitative changes in morphology. Cell types were characterized by phase-contrast microscopy and immunohistochemistry. Dynamics of cord formation were recorded by time-lapse microscopy. MAIN RESULTS AND THE ROLE OF CHANCE: Primary adult human testicular cells underwent sequential morphological changes including compaction and reaggregation resulting in round or elongated cord-like structures. Time-lapse video recordings within the first 4 days of culture revealed highly dynamic processes of migration and coalescence of reaggregated cells. The cellular movements were mediated by peritubular cells. Immunohistochemical analysis showed that both SRY-related high mobility box 9-positive Sertoli and α-smooth muscle actin-positive peritubular myoid cells interacted and contributed to cord-like structure formation. LARGE SCALE DATA: Not applicable. LIMITATIONS, REASONS FOR CAUTION: Owing to scarcity of normal human testicular tissue, testes from gender dysphoria patients were used in the study. The regressed status might influence the experimental responses of primary cells. We observed basic morphological features resembling in vivo testicular cords, however, the proof of functionality (e.g. support of germ cells) will need further studies. WIDER IMPLICATIONS OF THE FINDINGS: The proposed in vitro culture system may open opportunities for examination of testicular cell interactions during testicular tubulogenesis. Further refinement of our approach may enable initiation of ex vivo spermatogenesis. STUDY FUNDING/COMPETING INTERESTS: The work was supported by EU-FP7-PEOPLE-2013-ITN 603568: 'Growsperm'. No conflict of interests is declared.


Asunto(s)
Testículo/citología , Adulto , Diferenciación Celular/fisiología , Células Cultivadas , Citometría de Flujo , Humanos , Masculino , Morfogénesis/genética , Morfogénesis/fisiología , Células de Sertoli/citología , Células de Sertoli/metabolismo , Espermatogénesis/genética , Espermatogénesis/fisiología , Espermatogonias/metabolismo , Testículo/metabolismo
3.
Hum Reprod ; 33(4): 636-645, 2018 04 01.
Artículo en Inglés | MEDLINE | ID: mdl-29452353

RESUMEN

STUDY QUESTION: Can a systematic scoring procedure provide crucial information on the status of highly heterogeneous immature human testicular tissues in the context of cryopreservation for fertility preservation? SUMMARY ANSWER: We developed a systematic histological score as a novel diagnostic tool which differentiates the patient cohort according to the status of germ cell differentiation and number of spermatogonia (normal, diminished and absent), and which could be relevant in the fertility clinic. WHAT IS KNOWN ALREADY: Cryopreservation of testicular tissue of immature boys is currently considered the option for future fertility restoration. However, experimental techniques for the derivation of sperm as well as valid diagnostic scoring of these immature testis tissues are not yet reported. STUDY DESIGN, SIZE, DURATION: Testicular tissues of 39 patients (aged 2-20 years) who attended our clinic for cryopreservation between 2010 and 2015 were analyzed to determine the variability of testicular tissue composition, germ cell numbers and differentiation status. PARTICIPANTS/MATERIALS, SETTING, METHODS: Human testicular tissue samples were divided into three groups. Group NT included patients suffering from diseases which do not directly affect the testes (n = 6; aged 6-14 years), group AT included patients suffering from diseases that directly affect the testes (n = 14; 2-17 years), and group KS (Klinefelter patients, n = 19; 12-20 years). Based on immunohistochemical stainings for MAGEA4, the differentiation status as well as the numbers of gonocytes, spermatogonia and spermatocytes were determined. MAIN RESULTS AND THE ROLE OF CHANCE: Testicular tissue samples from the NT group contained a mean of 100.3 spermatogonia/mm3 (×103). Highly heterogeneous and significantly lower mean numbers of spermatogonia were scored in testes from boys after cytotoxic exposures or with pre-existing disease (AT group: 35.7 spermatogonia/mm3 (×103); KS group: 1.8 spermatogonia/mm3 (×103)). In addition, the germ cell differentiation status was determined and revealed tissues with either spermatogonia and gonocytes, only spermatogonia, spermatogonia and spermatocytes, or all three germ cell types were present. Based on spermatogonial numbers and differentiation status, we developed a germ cell score which we applied to each individual patient sample. LIMITATIONS REASONS FOR CAUTION: Normal human testicular tissue samples are difficult to obtain for ethical reasons and the sample numbers were small. However, six such samples provide a valid baseline for the normal situation. WIDER IMPLICATIONS OF THE FINDINGS: Fertility preservation of immature male tissues is an emerging field and is currently offered in many specialized centers worldwide. Our diagnostic germ cell score delivers an easily applicable tool, facilitating patient counseling and thus ensuring comparability between the centers with regard to future studies. STUDY FUNDING/COMPETING INTEREST(S): This study was supported by the Funding Initiative: Translational Research, Ministry of Innovation, Science and Research, Federal State of North Rhine Westphalia (z1403ts006). The authors declare that they do not have competing financial interests.


Asunto(s)
Criopreservación , Preservación de la Fertilidad/métodos , Espermatozoides/citología , Testículo/citología , Adolescente , Niño , Preescolar , Fertilidad , Humanos , Masculino , Adulto Joven
4.
Hum Reprod ; 33(9): 1677-1683, 2018 09 01.
Artículo en Inglés | MEDLINE | ID: mdl-30052981

RESUMEN

STUDY QUESTION: Does chemotherapy exposure (with or without alkylating agents) or primary diagnosis affect spermatogonial quantity in human prepubertal testicular tissue? SUMMARY ANSWER: Spermatogonial quantity is significantly reduced in testes of prepubertal boys treated with alkylating agent therapies or with hydroxyurea for sickle cell disease. WHAT IS KNOWN ALREADY: Cryopreservation of spermatogonial stem cells, followed by transplantation into the testis after treatment, is a proposed clinical option for fertility restoration in children. The key clinical consideration behind this approach is a sufficient quantity of healthy cryopreserved spermatogonia. However, since most boys with malignancies start therapy with agents that are not potentially sterilizing, they will have already received some chemotherapy before testicular tissue cryopreservation is considered. STUDY DESIGN, SIZE, DURATION: We examined histological sections of prepubertal testicular tissue to elucidate whether chemotherapy exposure or primary diagnosis affects spermatogonial quantity. Quantity of spermatogonia per transverse tubular cross-section (S/T) was assessed in relation to treatment characteristics and normative reference values in histological sections of paraffin embedded testicular tissue samples collected from 32 consecutive boy patients (aged 6.3 ± 3.8 [mean ± SD] years) between 2014 and 2017, as part of the NORDFERTIL study, and in 14 control samples (from boys aged 5.6 ± 5.0 [mean ± SD] years) from an internal biobank. PARTICIPANTS/MATERIALS, SETTING, METHODS: Prepubertal boys in Sweden, Finland and Iceland who were facing treatments associated with a very high risk of infertility, were offered the experimental procedure of testicular cryopreservation. Exclusion criteria were testicular volumes >10 ml and high bleeding or infection risk. There were 18 patients with a diagnosis of malignancy and 14 patients a non-malignant diagnosis. While 20 patients had the testicular biopsy performed 1-45 days after chemotherapy, 12 patients had not received any chemotherapy. In addition, 14 testicular tissue samples of patients with no reported testicular pathology, obtained from the internal biobank of the Department of Pathology at Karolinska University Hospital, were included as control samples in addition to reference values obtained from a recently published meta-analysis. The quantity of spermatogonia was assessed by both morphological and immunohistochemical analysis. MAIN RESULTS AND THE ROLE OF CHANCE: The main finding was a significant reduction in spermatogonial cell counts in boys treated with alkylating agents or with hydroxyurea for sickle cell disease. The mean S/T values in boys exposed to alkylating agents (0.2 ± 0.3, n = 6) or in boys with sickle cell disease and exposed to hydroxyurea (0.3 ± 0.6, n = 6) were significantly lower (P = 0.003 and P = 0.008, respectively) than in a group exposed to non-alkylating agents or in biobank control samples (1.7 ± 1.0, n = 8 and 4.1 ± 4.6, n = 14, respectively). The mean S/T values of the testicular tissue samples included in the biobank control group and the patient group exposed to non-alkylating agents were within recently published normative reference values. LIMITATIONS, REASONS FOR CAUTION: Normal testicular tissue samples included in this study were obtained from the internal biobank of Karolinska University Hospital. Samples were considered normal and included in the study if no testicular pathology was reported in the analysed samples. However, detailed information regarding previous medical treatments and testicular volumes of patients included in this biobank were not available. WIDER IMPLICATIONS OF THE FINDINGS: This study summarizes, for the first time, spermatogonial quantity in a prepubertal patient cohort just before and after potentially sterilizing treatments. Boys facing cancer and cytotoxic therapies are regarded as the major group who will benefit from novel fertility preservation techniques. There are no previous reports correlating spermatogonial quantity to cumulative exposure to alkylating agents and anthracyclines (non-alkylating agents) and no information about the timing of cytotoxic exposures among this particular patient cohort. For prepubertal boys in whom fertility preservation is indicated, testicular tissue should be obtained before initiation of chemotherapy with alkylating agents, whilst for those with sickle cell disease and treated with hydroxyurea, this approach to fertility preservation may not be feasible. STUDY FUNDING/COMPETING INTEREST(S): This study was supported by grants from The Swedish Childhood Cancer Foundation (PR2016-0124; TJ2016-0093; PR2015-0073, TJ2015-0046) (J.-B.S. and K.J.), the Jane and Dan Olssons Foundation (2016-33) (J.-B.S.), the Finnish Cancer Society (K.J.), the Foundation for Paediatric Research (J.-B.S.), Kronprinsessan Lovisas Förening För Barnasjukvård/ Stiftelsen Axel Tielmans Minnesfond, Samariten Foundation (J.-B.S.), the Väre Foundation for Paediatric Cancer Research (K.J.) and the Swedish Research Council (2012-6352) (O.S.). R.T.M. was supported by a Wellcome Trust Fellowship (09822). J.P.A.-L. and M.K. were supported by the ITN Marie Curie program 'Growsperm' (EU-FP7-PEOPLE-2013-ITN 603568). The authors declare no conflicts of interest. TRIAL REGISTRATION NUMBER: N/A.


Asunto(s)
Antineoplásicos Alquilantes/efectos adversos , Hidroxiurea/efectos adversos , Espermatogonias/citología , Testículo/citología , Anemia de Células Falciformes/tratamiento farmacológico , Estudios de Casos y Controles , Niño , Preescolar , Estudios de Cohortes , Criopreservación , Preservación de la Fertilidad/métodos , Humanos , Masculino , Neoplasias/tratamiento farmacológico , Neoplasias/radioterapia , Radioterapia/efectos adversos
5.
Mol Hum Reprod ; 22(9): 601-12, 2016 09.
Artículo en Inglés | MEDLINE | ID: mdl-27430551

RESUMEN

STUDY QUESTION: Do the organ culture conditions, previously defined for in vitro murine male germ cell differentiation, also result in differentiation of rat spermatogonia into post-meiotic germ cells exhibiting specific markers for haploid germ cells? SUMMARY ANSWER: We demonstrated the differentiation of rat spermatogonia into post-meiotic cells in vitro, with emphasis on exhibiting, protein markers described for round spermatids. WHAT IS KNOWN ALREADY: Full spermatogenesis in vitro from immature germ cells using an organ culture technique in mice was first reported 5 years ago. However, no studies reporting the differentiation of rat spermatogonia into post-meiotic germ cells exhibiting the characteristic protein expression profile or into functional sperm have been reported. STUDY DESIGN, SAMPLES/MATERIALS, METHODS: Organ culture of testicular fragments of 5 days postpartum (dpp) neonatal rats was performed for up to 52 days. Evaluation of microscopic morphology, testosterone levels, mRNA and protein expression as measured by RT-qPCR and immunostaining were conducted to monitor germ cell differentiation in vitro. Potential effects of melatonin, Glutamax® medium, retinoic acid and the presence of epidydimal fat tissue on the spermatogenic process were evaluated. A minimum of three biological replicates were performed for all experiments presented in this study. One-way ANOVA, ANOVA on ranks and student's t-test were applied to perform the statistical analysis. MAIN RESULTS AND THE ROLE OF CHANCE: Male germ cells, present in testicular tissue pieces grown from 5 dpp rats, exhibited positive protein expression for Acrosin and Crem (cAMP (cyclic adenosine mono phosphate) response element modulator) after 52 days of culture in vitro. Intra-testicular testosterone production could be observed after 3 days of culture, while when epididymal fat tissue was added, spontaneous contractility of cultured seminiferous tubules could be observed after 21 days. However, no supportive effect of the supplementation with any factor or the co-culturing with epididymal fat tissue on germ cell differentiation in vitro or testosterone production was observed. LIMITATIONS, REASONS FOR CAUTION: The human testis is very different in physiology from the rat testis, further investigations are still needed to optimize the organ culture system for future use in humans. WIDER IMPLICATIONS OF THE FINDINGS: The successful differentiation of undifferentiated spermatogonia using the testis explant culture system might be employed in future to produce sperm from human spermatogonia as a clinical tool for fertility preservation in boys and men suffering infertility. LARGE SCALE DATA: None. STUDY FUNDING AND COMPETING INTERESTS: This work was supported financially by the Frimurare Barnhuset in Stockholm, the Paediatric Research Foundation, Jeanssons Foundation, Sällskåpet Barnåvard in Stockholm, Swedish Research Council/Academy of Finland, Emil and Wera Cornells Foundation, Samariten Foundation, the Swedish Childhood Cancer Foundation as well as through the regional agreement on medical training and clinical research (ALF) between Stockholm County Council and Karolinska Institutet. All authors declare no conflicts of interests.


Asunto(s)
Diferenciación Celular/fisiología , Espermátides/citología , Espermatogénesis/fisiología , Espermatogonias/citología , Animales , Diferenciación Celular/genética , Preservación de la Fertilidad , Células Germinativas , Masculino , Meiosis/genética , Meiosis/fisiología , Ratas , Túbulos Seminíferos/citología , Túbulos Seminíferos/metabolismo , Espermátides/metabolismo , Espermatogénesis/genética , Espermatogonias/metabolismo , Testículo/citología , Testículo/metabolismo
7.
Hum Reprod ; 30(2): 256-67, 2015 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-25505010

RESUMEN

STUDY QUESTION: Is it possible to derive a scaffold from human testis for the purpose of tissue engineering and regenerative medicine? SUMMARY ANSWER: We developed a method to produce a cytocompatible decellularized testicular matrix (DTM) while maintaining the native tissue-specific characteristics and components. WHAT IS KNOWN ALREADY: The potential benefits of tissue-specific scaffolds consisting of naturally-derived extracellular matrix (ECM) have been demonstrated using a wide variety of animal and human tissue sources. However, so far, testis scaffolds have never been considered for constructive remodelling purposes. STUDY DESIGN, SIZE, DURATION: Human cadaveric testicular tissue was exposed for 24 or 48 h to 1% Triton X-100 and/or 1% sodium dodecyl sulphate (SDS). Acellular samples were used for further scaffold characterization purposes. PARTICIPANTS/MATERIALS, SETTING, METHODS: The extent of decellularization was evaluated by histology. Confirmation of cell removal in DTM was done by a DNA quantification technique. Retention of testicular tissue-specific characteristics was evaluated by mass spectrometry, immunohistochemistry, Alcian blue staining and scanning electron microscopy. Soluble toxicity and testicular cell attachment was assessed to check the cytocompatibility of DTM scaffolds. MAIN RESULTS AND THE ROLE OF CHANCE: Histological analysis showed that DTM could be obtained by mechanical agitation in 1% SDS for 24 h. The resulting DTM was found to be clear of cells while retaining the typical three-dimensional structure and the major components of the native tissue scaffold, including collagen type I and IV, fibronectin, laminin and glycosaminoglycans. In addition, using proteomic analysis, we revealed numerous additional ECM proteins in DTM, indicating its complex nature. The mass spectrometry data were deposited to the ProteomeXchange with identifier PXD001524. Importantly, we demonstrated that DTM scaffolds are not cytotoxic, as evidenced by MTT assay not showing an aberrant fibroblast proliferation activity after indirect exposure, and support testicular cell attachment and infiltration. LIMITATIONS, REASONS FOR CAUTION: The functionality of human testicular cells in DTM needs to be investigated. WIDER IMPLICATIONS OF THE FINDINGS: Our results suggest that the insights into the molecular composition of the testicular ECM provide new clues for the unravelling of its important yet poorly understood role in regulating testicular function, and DTM-based bioscaffolds are promising components for the development of human in vitro spermatogenesis as a treatment for various types of male fertility disorders.


Asunto(s)
Matriz Extracelular/química , Medicina Regenerativa/métodos , Testículo/química , Ingeniería de Tejidos/métodos , Andamios del Tejido/química , Bélgica , Cadáver , Adhesión Celular , Proliferación Celular , Células Cultivadas , Matriz Extracelular/metabolismo , Matriz Extracelular/ultraestructura , Proteínas de la Matriz Extracelular/metabolismo , Humanos , Inmunohistoquímica , Masculino , Microscopía Electrónica de Rastreo , Orquiectomía , Neoplasias de la Próstata/patología , Neoplasias de la Próstata/cirugía , Proteómica/métodos , Piel/citología , Testículo/metabolismo , Testículo/patología , Testículo/ultraestructura , Células Tumorales Cultivadas
8.
Int J Androl ; 35(2): 211-3, 2012 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-22372740

RESUMEN

The 'International Network for Young Researchers in Male Fertility' has now turned 6 years old and offers a platform that stimulates scientific exchange as well as the development of international cooperation for young researchers. We report on our scope and the exciting achievements, amongst others, the continually increasing number of participants and the growing success of our annual meetings.


Asunto(s)
Investigación Biomédica , Fertilidad , Sociedades Científicas , Testículo , Educación , Humanos , Infertilidad Masculina , Cooperación Internacional , Masculino , Investigadores
9.
Andrology ; 8(4): 825-834, 2020 07.
Artículo en Inglés | MEDLINE | ID: mdl-31539453

RESUMEN

Increasing rates of male infertility have led to a greater need for relevant model systems to gain further insight into male fertility and its failings. Spermatogenesis and hormone production occur within distinct regions of the testis. Defined by specialized architecture and a diverse population of cell types, it is no surprise that disruption of this highly organized microenvironment can lead to infertility. To date, no robust in vitro system has facilitated full spermatogenesis resulting in the production of fertilization-competent human spermatozoa. Here, we review a selection of current in vitro systems available for modelling the human testis microenvironment with focus on the progression of spermatogenesis and recapitulation of the testis microenvironment.


Asunto(s)
Modelos Biológicos , Espermatogénesis , Testículo , Humanos , Técnicas In Vitro , Masculino
10.
Hum Reprod Open ; 2020(3): hoaa016, 2020.
Artículo en Inglés | MEDLINE | ID: mdl-32529047

RESUMEN

BACKGROUND: Infertility is an important side effect of treatments used for cancer and other non-malignant conditions in males. This may be due to the loss of spermatogonial stem cells (SSCs) and/or altered functionality of testicular somatic cells (e.g. Sertoli cells, Leydig cells). Whereas sperm cryopreservation is the first-line procedure to preserve fertility in post-pubertal males, this option does not exist for prepubertal boys. For patients unable to produce sperm and at high risk of losing their fertility, testicular tissue freezing is now proposed as an alternative experimental option to safeguard their fertility. OBJECTIVE AND RATIONALE: With this review, we aim to provide an update on clinical practices and experimental methods, as well as to describe patient management inclusion strategies used to preserve and restore the fertility of prepubertal boys at high risk of fertility loss. SEARCH METHODS: Based on the expertise of the participating centres and a literature search of the progress in clinical practices, patient management strategies and experimental methods used to preserve and restore the fertility of prepubertal boys at high risk of fertility loss were identified. In addition, a survey was conducted amongst European and North American centres/networks that have published papers on their testicular tissue banking activity. OUTCOMES: Since the first publication on murine SSC transplantation in 1994, remarkable progress has been made towards clinical application: cryopreservation protocols for testicular tissue have been developed in animal models and are now offered to patients in clinics as a still experimental procedure. Transplantation methods have been adapted for human testis, and the efficiency and safety of the technique are being evaluated in mouse and primate models. However, important practical, medical and ethical issues must be resolved before fertility restoration can be applied in the clinic.Since the previous survey conducted in 2012, the implementation of testicular tissue cryopreservation as a means to preserve the fertility of prepubertal boys has increased. Data have been collected from 24 co-ordinating centres worldwide, which are actively offering testis tissue cryobanking to safeguard the future fertility of boys. More than 1033 young patients (age range 3 months to 18 years) have already undergone testicular tissue retrieval and storage for fertility preservation. LIMITATIONS REASONS FOR CAUTION: The review does not include the data of all reproductive centres worldwide. Other centres might be offering testicular tissue cryopreservation. Therefore, the numbers might be not representative for the entire field in reproductive medicine and biology worldwide. The key ethical issue regarding fertility preservation in prepubertal boys remains the experimental nature of the intervention. WIDER IMPLICATIONS: The revised procedures can be implemented by the multi-disciplinary teams offering and/or developing treatment strategies to preserve the fertility of prepubertal boys who have a high risk of fertility loss. STUDY FUNDING/COMPETING INTERESTS: The work was funded by ESHRE. None of the authors has a conflict of interest.

12.
J Clin Endocrinol Metab ; 97(12): 4588-95, 2012 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-23015652

RESUMEN

CONTEXT: A randomized controlled study was conducted comparing the outcome of surgery for congenital cryptorchidism at 9 months or 3 yr of age. OBJECTIVE: The aim of the study was to investigate whether surgery at 9 months is more beneficial than at 3 yr and to identify early endocrine markers of importance for testicular development. PATIENTS AND METHODS: A total of 213 biopsies were taken at orchidopexy, and the number of germ and Sertoli cells per 100 seminiferous cord cross-sections and the surface area of seminiferous tubules and interstitial tissue were analyzed. Inhibin B, FSH, LH, and testosterone were determined. Testicular volume was assessed by ultrasonography and by a ruler. RESULTS: The number of germ and Sertoli cells and testicular volume at 9 months were significantly larger than at 3 yr. The intraabdominal testes showed the largest germ cell depletion at 3 yr. At both ages, testicular volume correlated to the number of germ and Sertoli cells. None of the hormones measured during the first 6 months of life (LH, FSH, testosterone, and inhibin B) could predict the number of germ or Sertoli cells at either 9 or 36 months of age, nor could hormone levels predict whether spontaneous descent would occur or not. CONCLUSION: Morphometric and volumetric data show that orchidopexy at 9 months is more beneficial for testicular development than an operation at 3 yr of age. Testicular volume was furthermore shown to reflect germ cell numbers in early childhood, whereas endocrine parameters could not predict cellular structure of the testis or its spontaneous descent.


Asunto(s)
Criptorquidismo/metabolismo , Criptorquidismo/patología , Criptorquidismo/cirugía , Hormonas/metabolismo , Orquidopexia , Testículo/fisiopatología , Factores de Edad , Preescolar , Criptorquidismo/fisiopatología , Hormona Folículo Estimulante/sangre , Hormona Folículo Estimulante/metabolismo , Hormonas/sangre , Humanos , Lactante , Recién Nacido , Inhibinas/sangre , Inhibinas/metabolismo , Hormona Luteinizante/sangre , Hormona Luteinizante/metabolismo , Masculino , Orquidopexia/métodos , Orquidopexia/rehabilitación , Tamaño de los Órganos , Espermatogénesis/fisiología , Testículo/metabolismo , Testículo/cirugía , Testosterona/sangre , Testosterona/metabolismo
13.
Sex Dev ; 5(4): 188-96, 2011.
Artículo en Inglés | MEDLINE | ID: mdl-21654158

RESUMEN

Searching for useful markers of spermatogonial stem cells and their differentiation, we used rat testes from ages representing different stages of testicular maturation to investigate the expression profile of transcription factor activation protein-2γ (Ap-2γ). The immunohistochemical and immunocytochemical evaluation using Ap-2γ and promyelocytic leukemia zinc finger in combination with sorting of CD9 and CD90 positive cells (undifferentiated spermatogonia) by fluorescence-activated cell sorting was performed. Our experiments revealed that Ap-2γ is detectable in testes of late fetal age and up to 60 days postnatally and is expressed in gonocytes and spermatogonia from late fetal age throughout all maturational stages. Restricted nuclear expression of Ap-2γ to undifferentiated male germ cells was verified by coexpression of Ap-2γ with promyelocytic leukemia zinc finger in sections of paraffin-embedded testes as well as in cells sorted positive for CD9 and CD90 expression. Our study demonstrated clearly that nuclear expression of Ap-2γ is a useful marker for identifying undifferentiated male germ cells, although its functional role is yet to be fully explored.


Asunto(s)
Testículo/química , Testículo/crecimiento & desarrollo , Factor de Transcripción AP-2/análisis , Animales , Antígenos CD/análisis , Biomarcadores/análisis , Diferenciación Celular , Núcleo Celular/química , Citometría de Flujo , Inmunohistoquímica , Masculino , Glicoproteínas de Membrana/análisis , Ratas , Ratas Sprague-Dawley , Espermatocitos/química , Espermatogonias/química , Testículo/embriología , Tetraspanina 29 , Antígenos Thy-1/análisis
14.
Sex Dev ; 4(4-5): 199-212, 2010 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-20664245

RESUMEN

Functional gonads are mandatory for sexual reproduction and survival of higher animal species. However, at the level of the individual subject, acquired or inherited gonadal dysfunction and infertility are not commonly associated with severe life-threatening phenotypes. Medical progress and increased societal interest have led to more prioritized agendas for reproductive health problems. Increasing attention is focused on disorders of sex development, fertility and sexual function. Despite this engagement, our understanding of the detailed molecular and cellular adverse events behind such problems is still incomplete. Critical early steps, such as determination of the gonads, occur at precise temporal windows of development. The sex chromosomes are obvious critical contributors, but many other human chromosomes also contribute to sex differentiation, engaging multiple genes and proteins. The aim of this review is to give an up-to-date and comprehensive summary of the events required for gonadal ontogenesis in the human male, from the stage of embryonic sex determination to postnatal maturation including puberty. The principal genes involved in these processes are tabulated and discussed. Morphological events relevant for human gonadal development are covered, in particular in connection with early germ cell maturation and spermatogenesis. Consequences of maldevelopment caused by, e.g. cryptorchidism, are discussed.


Asunto(s)
Organogénesis , Testículo/embriología , Linaje de la Célula , Humanos , Masculino , Pubertad/fisiología , Espermatogénesis/fisiología , Espermatozoides/citología , Testículo/fisiología
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