N-acetylcysteine protects ovarian follicles from ischemia-reperfusion injury in xenotransplanted human ovarian tissue

Olesen, Hanna Ørnes; Pors, Susanne Elisabeth; Jensen, Lea Bejstrup; Grønning, Annika Patricia; Lemser, Camilla Engel; Heimbürger, Maria Thai Hien Nguyen; Mamsen, Linn Salto; Getreu, Natalie; Christensen, Søren T.; Andersen, Claus Yding; Kristensen, Stine Gry

doi:10.1093/humrep/deaa291

Cited by 28 publications

(28 citation statements)

References 60 publications

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“…BAX plays a role in the mitochondrial apoptotic process. BCL-2 is a mitochondrial membrane-anchored protein that has been detected in the ovary and is known as an inhibitor of follicular atresia and apoptosis (Olesen et al, 2021). The ratio of BAX/BCL-2 in the 48h group was higher than in the 0h group, but we did not find differences between the three groups for the protein expression of BCL-2.…”

Section: Follicle Viability and Apoptosiscontrasting

confidence: 69%

Long-time low-temperature transportation of human ovarian tissue before cryopreservation

Cheng

Ruan

Zhou

et al. 2021

Reproductive BioMedicine Online

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Research question: Can the low-temperature transport time of removed human ovarian tissue be prolonged until cryopreservation? Design: Fresh ovarian cortex from nine premenopausal patients was either slow-programmed frozen immediately or stored at 4℃ for 24h or 48h before slow-freezing. The fresh and frozen-thawed biopsies were evaluated by follicle counting via calcein-staining, histologic analyses via HE, and apoptosis via TUNEL. The fresh cortex was assessed by ROS and TAC assay for oxidative stress 2 2 detection. The frozen-thawed cortex biopsies were also evaluated by qPCR for mRNA expression of BCL-2, BAX, TNFa, HIF-1a, BMP15, and GDF9, western-blot for detection of BCL-2, BMP15, GDF9, and CASPASE3. The frozen-thawed cortex was cultured in-vitro for four-days, AMH and glucose were assessed in the supernatant, and ROS and TAC assay detected cortex's oxidative stress.Results: In the fresh cortex, no significant differences between the three groups. In the frozen-thawed cortex, no significant differences between the three groups regarding follicle viability, TUNEL, mRNA expression of TNFa, HIF-1a, and BMP15. GDF9 mRNA and BAX/BCL-2 were lower and higher at 48h than at 0h, respectively. However, the protein expression of BCL-2, CASPASE3, GDF9, and BMP15 were not different. In the cultured cortex, ROS, TAC, and glucose uptake were not different in the three groups. Conclusion:Ovarian tissue transportation was validated for up to 24h in the practical procedure. This study showed that 4-8℃ transportation for 24h or 48h does not seem to damage the ovarian tissue. However, ovarian tissue transportation above 48h still needs to be further studied for conclusions to be made.

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Section: Follicle Viability and Apoptosiscontrasting

confidence: 69%

Long-time low-temperature transportation of human ovarian tissue before cryopreservation

Cheng

Ruan

Zhou

et al. 2021

Reproductive BioMedicine Online

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“…This can be due to the fact that ROS levels and kinetics in grafted ovarian tissue remain below the threshold for significant activation of a cytoprotective response through Nrf2 signaling. Indeed, other signaling pathways associated with inflammation and mitochondrial activation during tissue remodeling may be responsible for the increase in some antioxidants like catalases and glutathione peroxidase detected in xenografted tissues (18,51).…”

Section: Evidence Of Oxidative Stress In Ovarian Xenograftsmentioning

confidence: 99%

“…It may also explain why previous studies using antioxidants like vitamin E to decrease oxidative stress after OTT (52, 53) did not find any significant improvement in follicle outcomes. More promising results were obtained by the administration of antioxidants like erythropoietin (18) and N-acetylcysteine (17,51), which are known for their pleiotropic effects as neoangiogenesis boosters and anti-inflammatory effectors.…”

Section: Evidence Of Oxidative Stress In Ovarian Xenograftsmentioning

confidence: 99%

Modulating hypoxia and oxidative stress in human xenografts using adipose tissue-derived stem cells

et al. 2021

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Objective: To investigate whether adipose tissue-derived stem cells (ASCs) modulate hypoxia and oxidative stress in human ovarian tissue transplants. Design: Prospective experimental study Setting: Gynecological research unit in a university hospital Patient(s): Cryopreserved ovarian cortex from 5 adult women. Intervention(s): Thirty mice were grafted with frozen-thawed human ovarian tissue, with or without ASCs (2-step/ASCsþovarian tissue [OT] group and OT group). The ovarian grafts were retrieved on days 3 (n ¼ 5), 10 (n ¼ 5), and 21 (n ¼ 5). The 10 animals grafted for 21 days underwent in vivo evaluations using microdialysis. One piece of ovarian tissue per patient was fixed for analysis after thawing (non-grafted controls). Main Outcome Measure(s): Direct reactive oxygen species were collected every second day after grafting by means of microdialysis. Analyses of ovarian fragments included immunolabeling for double CD34 (revascularization by host and graft components); immunofluorescence for hypoxia-inducible factor 1a (hypoxia-related response), nuclear factor erythroid 2-related factor 2 (oxidative stressrelated response), and 8-hydroxy-deoxyguanosine (oxidative stress-related DNA damage); and gene expression (quantitative reverse transcription polymerase chain reaction) for vascular endothelial growth factor-A (neoangiogenesis), superoxide dismutase 2 (antioxidant activity), and nuclear respiratory factor 1 (mitochondrial biogenesis). Result(s): Reactive oxygen species peaked earlier in the ASC group (day 2) compared with that in the OT group (day 10) after grafting. Total vascularization was stable in the ASC group at all time points, while it was lower in the OT group 3 days after grafting. Hypoxiainducible factor 1a expression, also detected in non-grafted controls, was significantly lower in the ASC group than in the OT group on days 3 and 10. The increase in VEGF gene expression lasted significantly longer in the ASC group than in the OT group. There was no significant upturn in the oxidative stress-related response (nuclear factor erythroid 2-related factor 2 pathway) or oocyte DNA damage (8-hydroxy-deoxyguanosine) in any of the grafted groups. Conclusion(s): Use of ASCs allows faster ovarian graft reperfusion and mitigates the hypoxia-related response through rapid revascularization, sustained by prolonged increase in vascular endothelial growth factor after grafting. No evidence of oxidative stress-related damage was detected irrespective of the transplantation strategy.

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“…For patients above the age of 35 years at the time of OTC the reproductive outcomes after OTT are poor [ 35 , 36 ] and the efficacy of the procedure is limited due to a significant loss (70%) of follicles occurring during transplantation as a result of ischemia and reperfusion injury [ 37 , 38 ]. New methods to improve follicular survival post-OTT are being investigated, including adipose tissue-derived stem cells to increase follicle survival by enhancing vascularization [ 39 ], and intraperitoneal administration of the antioxidant N-acetylcysteine (NAC) to protect follicles from ischemia–reperfusion injury [ 40 ].…”

Section: Conference Session Synopsismentioning

confidence: 99%

A synopsis of global frontiers in fertility preservation

Ataman

Laronda

Gowett

et al. 2022

J Assist Reprod Genet

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Since 2007, the Oncofertility Consortium Annual Conference has brought together a diverse network of individuals from a wide range of backgrounds and professional levels to disseminate emerging basic and clinical research findings in fertility preservation. This network also developed enduring educational materials to accelerate the pace and quality of field-wide scientific communication. Between 2007 and 2019, the Oncofertility Consortium Annual Conference was held as an in-person event in Chicago, IL. The conference attracted approximately 250 attendees each year representing 20 countries around the world. In 2020, however, the COVID-19 pandemic disrupted this paradigm and precluded an in-person meeting. Nevertheless, there remained an undeniable demand for the oncofertility community to convene. To maintain the momentum of the field, the Oncofertility Consortium hosted a day-long virtual meeting on March 5, 2021, with the theme of “Oncofertility Around the Globe” to highlight the diversity of clinical care and translational research that is ongoing around the world in this discipline. This virtual meeting was hosted using the vFairs ® conference platform and allowed over 700 people to participate, many of whom were first-time conference attendees. The agenda featured concurrent sessions from presenters in six continents which provided attendees a complete overview of the field and furthered our mission to create a global community of oncofertility practice. This paper provides a synopsis of talks delivered at this event and highlights the new advances and frontiers in the fields of oncofertility and fertility preservation around the globe from clinical practice and patient-centered efforts to translational research. Supplementary Information The online version contains supplementary material available at 10.1007/s10815-022-02570-5.

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N-acetylcysteine protects ovarian follicles from ischemia-reperfusion injury in xenotransplanted human ovarian tissue

Cited by 28 publications

References 60 publications

Long-time low-temperature transportation of human ovarian tissue before cryopreservation

Long-time low-temperature transportation of human ovarian tissue before cryopreservation

Modulating hypoxia and oxidative stress in human xenografts using adipose tissue-derived stem cells

A synopsis of global frontiers in fertility preservation

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