Fertility preservation in boys: recent developments and new insights †

Goossens, Ellen; Jahnukainen, Kirsi; Rt, Mitchell; Pelt, Ans M.M. van; Pennings, Guido; Rives, Nathalie; Poels, Jonathan; Wyns, Christine; Lane, Sheila; Rodriguez-Wallberg, KA; Rives, A; Valli-Pulaski, Hanna; Steimer, Sarah; Kliesch, Sabine; Braye, Aude; Andrés, M M; Medrano, José V.; Ramos, Liliana; Kristensen, S.G; Andersen, Claus Yding; Bjarnason, Ragnar; Orwig, KE; Neuhaus, Nina; Stukenborg, Jan-Bernd

doi:10.1093/hropen/hoaa016

Cited by 149 publications

(156 citation statements)

References 153 publications

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“…Thus, cryopreservation of sperm should be considered when testicular volume is above 10-12 mL. Current strategies to preserve fertility in prepubertal boys center around the cryopreservation of testicular material [72]. However, the success of this approach to restore subsequent fertility is dependent on the preservation of germ cells with stem cell capability within the cryopreserved tissue.…”

Section: Options Of Fertility Preservation and Future Challenges -Male Patientsmentioning

confidence: 99%

“…As such, continued stratification of fertility risks based on underlying diagnoses and treatment is necessary to validate and, if necessary, adapt patient selection criteria to avoid unnecessary surgery in those who would subsequently retain natural fertility. This could be achieved through multicenter follow-up studies employing standardized protocols [72]. Despite an increasing number of centers worldwide offering storage of testis tissue, strategies for the subsequent generation of viable sperm, including autologous testicular tissue grafting, spermatogonial stem cells (SSC) transplantation, and in vitro spermatogenesis, remain experimental.…”

Section: Options Of Fertility Preservation and Future Challenges -Male Patientsmentioning

confidence: 99%

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Fertility Preservation for Prepubertal Patients at Risk of Infertility: Present Status and Future Perspectives

et al. 2020

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The increasing cure rate of cancer has led to a vast population of survivors having to face the late adverse effects of oncological treatments, with fertility impairment being one of the most sensitive issues for patients. Different options to preserve the fertility of adult patients are routinely used in clinical practice. However, fertility preservation strategies for prepubertal patients at risk of infertility are limited to the cryopreservation of immature gonadal tissue. In recent decades, many research efforts have been focused on the future use of cryopreserved gonadal tissue. This review discusses the common status of fertility preservation measures for pediatric patients undergoing gonadotoxic treatment, focusing especially on the challenges that remain to be solved in order to implement this fundamental service.

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Section: Options Of Fertility Preservation and Future Challenges -Male Patientsmentioning

confidence: 99%

Section: Options Of Fertility Preservation and Future Challenges -Male Patientsmentioning

confidence: 99%

Fertility Preservation for Prepubertal Patients at Risk of Infertility: Present Status and Future Perspectives

et al. 2020

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“…The isolation, expansion, and transplantation of spermatogonia could present an option to restore fertility. 9,10,[17][18][19][20][21][22] Preservation of fertility will require large numbers of matured stem cells for efficient neospermatogenesis. Therefore, a thorough understanding of immature germ cell maturational processes is essential to facilitate the in vitro maintenance and propagation of functional stem cells.…”

Section: Introductionmentioning

confidence: 99%

Unique metabolic phenotype and its transition during maturation of juvenile male germ cells

et al. 2021

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Human male reproductive development has a prolonged prepubertal period characterized by juvenile quiescence of germ cells with immature spermatogonial stem cell (SSC) precursors (gonocytes) present in the testis for an extended period of time. The metabolism of gonocytes is not defined. We demonstrate with mitochondrial ultrastructure studies via TEM and IHC and metabolic flux studies with UHPLC-MS that a distinct metabolic transition occurs during the maturation to SSCs. The mitochondrial ultrastructure of prepubertal human spermatogonia is shared with prepubertal pig spermatogonia. The metabolism of early prepubertal porcine spermatogonia (gonocytes) is characterized by the reliance on OXPHOS fuelled by oxidative decarboxylation of pyruvate. Interestingly, at the same time, a high amount of the consumed pyruvate is also reduced and excreted as lactate. With maturation, prepubertal spermatogonia show a metabolic shift with decreased OXHPOS and upregulation of the anaerobic metabolism-associated uncoupling protein 2 (UCP2). This shift is accompanied with stem cell specific promyelocytic leukemia zinc finger protein (PLZF) protein expression and glial cell-derived neurotropic factor (GDNF) pathway activation. Our results demonstrate that gonocytes differently from mature spermatogonia exhibit unique metabolic demands that must be attained to enable their maintenance and growth in vitro. K E Y W O R D Smaturation, metabolism, prepubertal spermatogonia, reactive oxygen species 2 of 22 | VOIGT eT al. | MATERIALS AND METHODS | Animals and human subjects (samples)Testes were obtained by castration of 1-and 8-week-old pigs (Sunterra Farms Ltd; Acme, AB, Canada, and the University of Alberta, Edmonton, AB). All procedures were performed with approval and under the oversight of the Animal Care Committee and the Institutional Review Board of the University of Calgary. Human samples were obtained from a previous study 49 (approved by the Committee for Ethics in Medical Research at the Karolinska Institutet, 2009/716-31/2) and from the Fertility Preservation Program in Pittsburgh with approval from the University of Pittsburgh Institutional Review Board (Protocol #STUDY09020220.

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“…Although mature sperm cells are absent in young patients, a functional pool of SSCs is present from birth. Autotransplantation of SSCs into the testis has been suggested as a novel fertility restoration approach to restore sperm production in sterile male survivors of cancer or hematological diseases during childhood [ 5 , 6 , 7 , 8 ]. More specifically, this technique involves isolation of SSCs from a cryopreserved testicular biopsy that was taken prior to treatment, expansion of SSCs in vitro and autotransplantation of SSCs (SSCT) after successful treatment when sterility has manifested in the patient [ 9 ].…”

Section: Introductionmentioning

confidence: 99%

ITGA6+ Human Testicular Cell Populations Acquire a Mesenchymal Rather than Germ Cell Transcriptional Signature during Long-Term Culture

Struijk

Mulder

Daalen

et al. 2020

IJMS

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Autologous spermatogonial stem cell transplantation is an experimental technique aimed at restoring fertility in infertile men. Although effective in animal models, in vitro propagation of human spermatogonia prior to transplantation has proven to be difficult. A major limiting factor is endogenous somatic testicular cell overgrowth during long-term culture. This makes the culture both inefficient and necessitates highly specific cell sorting strategies in order to enrich cultured germ cell fractions prior to transplantation. Here, we employed RNA-Seq to determine cell type composition in sorted integrin alpha-6 (ITGA6+) primary human testicular cells (n = 4 donors) cultured for up to two months, using differential gene expression and cell deconvolution analyses. Our data and analyses reveal that long-term cultured ITGA6+ testicular cells are composed mainly of cells expressing markers of peritubular myoid cells, (progenitor) Leydig cells, fibroblasts and mesenchymal stromal cells and only a limited percentage of spermatogonial cells as compared to their uncultured counterparts. These findings provide valuable insights into the cell type composition of cultured human ITGA6+ testicular cells during in vitro propagation and may serve as a basis for optimizing future cell sorting strategies as well as optimizing the current human testicular cell culture system for clinical use.

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Fertility preservation in boys: recent developments and new insights †

Cited by 149 publications

References 153 publications

Fertility Preservation for Prepubertal Patients at Risk of Infertility: Present Status and Future Perspectives

Fertility Preservation for Prepubertal Patients at Risk of Infertility: Present Status and Future Perspectives

Unique metabolic phenotype and its transition during maturation of juvenile male germ cells

ITGA6+ Human Testicular Cell Populations Acquire a Mesenchymal Rather than Germ Cell Transcriptional Signature during Long-Term Culture

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