Therapeutic options for premature ovarian insufficiency: an updated review.

Primary ovarian insufficiency (POI) is a rare gynecological condition. This disease causes menstrual disturbances, infertility, and various health problems. Historically, hormone replacement therapy is the first-line treatment for this disorder. Women diagnosed with POI are left with limited therapeutic options. In order to remedy this situation, a new generation of therapeutic approaches, such as in vitro activation, mitochondrial activation technique, stem cell and exosomes therapy, biomaterials strategies, and platelet-rich plasma intra-ovarian infusion, is being developed. However, these emerging therapies are yet in the experimental stage and require precise design components to accelerate their conversion into clinical treatments. Thus, each medical practitioner bears responsibility for selecting suitable therapies for individual patients. In this article, we provide a timely analysis of the therapeutic strategies that are available for POI patients and discuss the prospects of POI therapy.

The effect of mTOR activation and PTEN inhibition on human primordial follicle activation in ovarian tissue culture.

PURPOSE: The effect of PTEN inhibitor (Bpv(HOpic); Bpv) and mTOR activators (phosphatidic acid (PA) and propranolol (PP)), were evaluated on the activation and subsequent development of human primordial follicles in ovarian tissue culture. METHODS: Slow frozen-thawed human ovarian cortical strips were incubated for 24 h in different groups: (1) Control (base medium), (2) Bpv (100 µM), (3) PA (200 µM), (4) PA + PP (50 µm), and (5) Bpv + PA + PP. Afterward, the medium was exchanged, and all groups were cultured without stimulators for 6 additional days. The proportion of normal and degenerated follicles, estradiol secretion, and expression of RPS6, FOXO3a, and AKT proteins was evaluated and compared between groups. RESULTS: After 24 h of culture, there was no significant difference between the proportion of primordial and growing follicles in either of the experimental groups. This non-significant change was also observed for the phosphorylated protein to total protein ratios of RPS6, FOXO3a, and AKT proteins. After 7 days of culture, the proportion of the transitional follicles was significantly higher in comparison to the primordial follicles for the PA, PA + PP, and Bpv + PA + PP groups. The estradiol level was significantly higher on the last day compared to the first day, in PA, PA + PP, and Bpv + PA + PP groups. Hormonal secretion was significantly higher in the PA and PA + PP groups and lower in the Bpv and Bpv + PA + PP groups compared to the control on day 7 of culture. CONCLUSION: Temporary in vitro treatment of human ovarian tissue with mTOR activators enhances the initiation of primordial follicle development and positively influences steroidogenesis after short-term culture.

Current mechanisms of primordial follicle activation and new strategies for fertility preservation.

Premature ovarian insufficiency (POI) is characterized by symptoms caused by ovarian dysfunction in patients aged <40 years. It is associated with a shortened reproductive lifespan. The only effective treatment for patients who are eager to become pregnant is IVF/Embryo Transfer (ET) using oocytes donated by young women. However, the use of the technique is constrained by the limited supply of oocytes and ethical issues. Some patients with POI still have some residual follicles in the ovarian cortex, which are not regulated by gonadotropin. These follicles are dormant. Therefore, activating dormant primordial follicles (PFs) to obtain high-quality oocytes for assisted reproductive technology may bring new hope for patients with POI. Therefore, this study aimed to explore the factors related to PF activation, such as the intercellular signaling network, the internal microenvironment of the ovary and the environment of the organism. In addition, we discussed new strategies for fertility preservation, such as in vitro activation and stem cell transplantation.

Autotransplantation of the ovarian cortex after in-vitro activation for infertility treatment: a shortened procedure.

STUDY QUESTION: Is it possible to establish a new in-vitro activation (IVA) protocol for infertility treatment? SUMMARY ANSWER: A new IVA procedure is an efficient and easily performed approach for infertility treatment of patients with diminished ovarian reserve (DOR). WHAT IS KNOWN ALREADY: IVA of primordial follicles with or without stimulators has been developed to treat patients with primary ovarian insufficiency (POI) successfully. However, the efficiency of the procedure is still very low. There is a requirement to optimize the protocol with increased efficiency for clinical application. STUDY DESIGN, SIZE, DURATION: Newborn mouse ovaries were used to establish a new 1-h IVA protocol with the mechanistic target of rapamycin (mTOR) stimulator phosphatidic acid (PA, 200 µM) and the phosphatidylinositol-3-kinase (PI3K) stimulator 740Y-P (250 µg/ml); a prospective observational cohort study in POI patients was performed on 15 POI patients and 3 poor ovarian response (POR) patients in three different centers of reproductive medicine in China. PARTICIPANTS/MATERIALS, SETTING, METHODS: One-third of ovarian cortex was removed and processed into bigger strips (1 × 1 cm2, 1-2 mm thickness). Strips were then sutured back after treatment. The new approach only requires one laparoscopic surgery. MAIN RESULTS AND THE ROLE OF CHANCE: Follicular activation and development increased in cultured mouse and human ovarian tissues after 1 h of stimulator treatment. Compared with tiny ovarian cortex pieces (1 × 1 mm2), large ovarian strips (1 × 1 cm2) showed the lowest apoptotic signals after incubation. We applied the orthotropic transplantation procedure with large strips in the clinic, and 9 of 15 POI patients showed at least one-wave follicular growth during the monitoring period. One patient was reported with one healthy delivery after natural conception and another patient with a healthy singleton delivery after IVF. All the contacted patients (n = 13) responded with no side effects on their health 2-4 years after IVA procedure. LIMITATIONS, REASONS FOR CAUTION: Further clinical trials with a large number of well-defined patients are required to compare different IVA protocols. A long-term follow-up system should be set up to monitor patient's health in the future cohort study. WIDER IMPLICATIONS OF THE FINDINGS: By using stimulators, the findings in the study provide a more efficient IVA protocol for the treatment of patients with DOR. It requires only one laparoscopic surgery and thus minimizes patients' discomfort and costs. This strategy could be useful for patients diagnosed with POI and desire pregnancy as soon as possible after the operation. STUDY FUNDING/COMPETING INTEREST(S): This work was supported by the National Key Research and Development Program of China (2018YFC1003703 and 2018YFC1004203); the National Natural Science Foundation of China (81871221); Co-construction of Provincial Department (201601006). The authors have no conflict of interest to disclose. TRIAL REGISTRATION NUMBER: ChiCTR2000030872.

In Vitro Activation Early Follicles: From the Basic Science to the Clinical Perspectives.

Development of early follicles, especially the activation of primordial follicles, is strictly modulated by a network of signaling pathways. Recent advance in ovarian physiology has been allowed the development of several therapies to improve reproductive outcomes by manipulating early folliculogenesis. Among these, in vitro activation (IVA) has been recently developed to extend the possibility of achieving genetically related offspring for patients with premature ovarian insufficiency and ovarian dysfunction. This method was established based on basic science studies of the intraovarian signaling pathways: the phosphoinositide 3-kinase (PI3K)/Akt and the Hippo signaling pathways. These two pathways were found to play crucial roles in folliculogenesis from the primordial follicle to the early antral follicle. Following the results of rodent experiments, IVA was implemented in clinical practice. There have been multiple recorded live births and ongoing pregnancies. Further investigations are essential to confirm the efficacy and safety of IVA before used widely in clinics. This review aimed to summarize the published literature on IVA and provide future perspectives for its improvement.

Resveratrol, EGCG and Vitamins Modulate Activated T Lymphocytes.

Vitamins and bioactives, which are constituents of the food chain, modulate T lymphocyte proliferation and differentiation, antibody production, and prevent inflammation and autoimmunity. We investigated the effects of vitamins (vitamin A (VA), D (VD), E (VE)) and bioactives (i.e., resveratrol (Res), epigallocatechin-3-gallate (EGCG)) on the adaptive immune response, as well as their synergistic or antagonistic interactions. Freshly isolated T lymphocytes from healthy individuals were activated with anti-CD3/CD28 antibodies for 4-5 days in the presence of bioactives and were analyzed by cytofluorometry. Interleukins, cytokines, and chemokines were measured by multiple ELISA. Gene expression was measured by quantitative RT-PCR. Res and EGCG increased CD4 surface intensity. EGCG led to an increased proportion of CD8+ lymphocytes. Anti-CD3/CD28 activation induced exuberant secretion of interleukins and cytokines by T lymphocyte subsets. VD strongly enhanced Th2 cytokines (e.g., IL-5, IL-13), whereas Res and EGCG favored secretion of Th1 cytokines (e.g., IL-2, INF-γ). Res and VD mutually influenced cytokine production, but VD dominated the cytokine secretion pattern. The substances changed gene expression of interleukins and cytokines in a similar way as they did secretion. Collectively, VD strongly modulated cytokine and interleukin production and favored Th2 functions. Resveratrol and EGCG promoted the Th1 response. VA and VE had only a marginal effect, but they altered both Th1 and Th2 response. In vivo, bioactives might therefore interact with vitamins and support the outcome and extent of the adaptive immune response.

SIRT1 facilitates primordial follicle recruitment independent of deacetylase activity through directly modulating Akt1 and mTOR transcription.

In female mammals, the majority of primordial follicles (PFs) are physiologically quiescent, and only a few of them are activated and enter the growing follicle pool. Specific molecules, such as mammalian target of rapamycin (mTOR) and the serine/threonine kinase Akt (AKT), have been proven to be important for PF activation. However, how the transcription of these genes is regulated is not clear. Although activators of mTOR or AKT have been successfully used to rescue the fertility of patients with premature ovarian insufficiency, the low efficacy and unclear safety profile of these drugs hinder their clinical use in the in vitro activation (IVA) of PFs. Here, sirtuin 1 (SIRT1), an NAD-dependent deacetylase, was demonstrated to activate mouse PFs independent of its deacetylase activity. SIRT1 was prominently expressed in pregranulosa cells (pGCs) and oocytes, and its expression was increased during PF activation. PF activation was achieved by either up-regulating SIRT1 with a specific activator or overexpressing SIRT1. Moreover, SIRT1 knockdown in oocytes or pGCs could significantly suppress PF activation. Further studies demonstrated that SIRT1 enhanced both Akt1 and mTOR expression by acting more as a transcription cofactor, directly binding to the respective gene promoters, than as a deacetylase. Importantly, we explored the potential clinical applications of targeting SIRT1 in IVA via short-term treatment of cultured ovaries from mice and human ovarian tissues to activate PFs by applying the SIRT1 activator resveratrol. RSV-induced IVA could be a candidate strategy to develop more efficient procedures for future clinical treatment of infertility.-Zhang, T., Du, X., Zhao, L., He, M., Lin, L., Guo, C., Zhang, X., Han, J., Yan, H., Huang, K., Sun, G., Yan, L., Zhou, B., Xia, G., Qin, Y., Wang, C. SIRT1 facilitates primordial follicle recruitment independent of deacetylase activity through directly modulating Akt1 and mTOR transcription.

Drug-free in-vitro activation of follicles for infertility treatment in poor ovarian response patients with decreased ovarian reserve.

RESEARCH QUESTION: The recently developed in-vitro activation (IVA) approach provides a promising infertility treatment for patients with premature ovarian insufficiency. The IVA method promotes growth of residual ovarian follicles following ovarian tissue fragmentation leading to Hippo signalling disruption, together with in-vitro incubation with Akt stimulators. As poor ovarian response (POR) patients with decreased ovarian reserve (DOR) have multiple secondary follicles, this study tested whether Hippo signalling disruption alone using in-vitro ovarian cortical fragmentation, followed by autologous grafting, was sufficient to promote follicle growth. DESIGN: A case series study. RESULTS: In 9 out of 11 POR patients with DOR treated with a simplified IVA procedure, increases in antral follicle numbers in multiple growth waves were detected following FSH treatment. Subsequent injection with human chorionic gonadotrophin allowed retrieval of more mature oocytes for IVF (median antral follicle counts before and after IVA per ovarian stimulation: 1.0 versus 2.6) with 68.7% fertilization rates and 56.9% showing high-quality embryonic development. One natural conception and 16 embryo transfers in five patients resulted in one live birth, two ongoing pregnancies and one miscarriage. Three additional patients and the miscarriage patient have cryopreserved embryos for future transfer. CONCLUSIONS: The present drug-free IVA approach may be suitable for POR patients with DOR, as it increased the number of antral follicles. The procedure also eliminated the need for 2-day incubation with drugs and required only one surgery. This approach could allow the retrieval of more oocytes in middle-aged women to achieve higher pregnancy rates and deserves proper evaluation in future randomized controlled trials.

Drug-free in-vitro activation of follicles and fresh tissue autotransplantation as a therapeutic option in patients with primary ovarian insufficiency.

RESEARCH QUESTION: Could in-vitro action of follicles and fresh tissue autotransplantation without tissue culture (drug-free IVA) be useful in patients with primary ovarian insufficiency (POI)? DESIGN: Prospective observational cohort study in a tertiary university hospital. Drug-Free IVA was carried out in 14 women with POI with a median age of 33 years (29-36 years), median length of amenorrhoea of 1.5 years (1-11 years), median FSH levels 69.2 mIU/ml (36.9-82.8 mIU/ml) and anti-Müllerian hormone of 0.02 ng/ml (0.01-0.1 ng/ml). The surgical procedure included laparoscopic removal of ovarian cortex, fragmentation of tissue and autografting. Human menopausal gonadotrophin (HMG) was started immediately after surgery. RESULTS: Follicle development was detected in seven out of the 14 patients, and five women achieved successful oocyte retrieval. In six women, HCG was administered in 10 cycles. Six embryo transfers were carried out in five women resulting in four pregnancies; a clinical pregnancy rate of four in seven oocyte retrievals and four in six embryo transfers. CONCLUSIONS: Drug-free IVA could be a useful therapeutic option for patients with POI, leading to successful IVF outcomes.

Future developments: In vitro growth (IVG) of human ovarian follicles.

Removal and storage of ovarian cortical tissue is currently offered to young female cancer patients undergoing potentially sterilizing chemotherapy and/or radiotherapy. For patients at high risk of reintroduction of malignancy through auto-transplantation, the ultimate aim is to achieve complete oocyte development from this tissue in vitro. The ability to develop human oocytes from the earliest follicular stages through to maturation and fertilization in vitro would revolutionize fertility preservation practice. This has been achieved in mice where in vitro grown oocytes from primordial follicles have resulted in the production of live offspring. Systems that support growth and development of oocytes from human ovarian cortex are being developed by several groups. This review focuses on the steps required to recapitulate in vitro the process of human oocyte development from the primordial stage and the systems currently available to support this.

CDC42 controls the activation of primordial follicles by regulating PI3K signaling in mouse oocytes.

BACKGROUND: In mammalian females, progressive activation of dormant primordial follicles in adulthood is crucial for the maintenance of the reproductive lifespan. Misregulated activation of primordial follicles leads to various ovarian diseases, such as premature ovarian insufficiency (POI). Although recent studies have revealed that several functional genes and pathways, such as phosphoinositide 3-kinase (PI3K) signaling, play roles in controlling the activation of primordial follicles, our understanding of the molecular networks regulating the activation progress is still incomplete. RESULTS: Here, we identify a new role for cell division cycle 42 (CDC42) in regulating the activation of primordial follicles in mice. Our results show that CDC42 expression increases in oocytes during the activation of primordial follicles in the ovary. Disruption of CDC42 activity with specific inhibitors or knockdown of Cdc42 expression significantly suppresses primordial follicle activation in cultured mouse ovaries. Conversely, the follicle activation ratio is remarkably increased by overexpression of CDC42 in ovaries. We further demonstrate that CDC42 governs the process of primordial follicle activation by binding to phosphatidylinositol-4,5-bisphosphate 3-kinase catalytic subunit beta (p110ß) and regulating the expression levels of PTEN in oocytes. Finally, we extend our study to potential clinical applications and show that a short-term in vitro treatment with CDC42 activators could significantly increase the activation rates of primordial follicles in both neonatal and adult mouse ovaries. CONCLUSION: Our results reveal that CDC42 controls the activation of primordial follicles in the mammalian ovary and that increasing the activity of CDC42 with specific activators might improve the efficiency of in vitro activation approaches, opening avenues for infertility treatments.

Improving oocyte quality by transfer of autologous mitochondria from fully grown oocytes.

Older women are often the most challenging group of patients in fertility clinics due to a decline in both number and overall quality of oocytes. The quality of oocytes has been linked to mitochondrial dysfunction. In this mini-review, we discuss this hypothesis and suggest alternative treatment options using autologous mitochondria to potentially augment pregnancy potential in ART. Autologous transfer of mitochondria from the patient's own germline cells has attracted much attention as a possible new treatment to revitalize deficient oocytes. IVF births have been reported after transfer of oogonial precursor cell-derived mitochondria; however, the source and quality of the mitochondria are still unclear. In contrast, fully grown oocytes are loaded with mitochondria which have passed the genetic bottleneck and are likely to be of high quality. An increased supply of such oocytes could potentially be obtained by in vitro follicle activation of ovarian cortical biopsies or from surplus immature oocytes collected from women undergoing ART or fertility preservation of ovarian tissue. Taken together, autologous oocytes are not necessarily a limiting resource in ART as fully grown oocytes with high quality mitochondria can be obtained from natural or stimulated ovaries and potentially be used to improve both quality and quantity of oocytes available for fertility treatment.

Morphofunctional Characteristics of Human Lymphocytes after In Vitro Activation.

We describe a method of activation of lymphocytes isolated from the peripheral blood of patients with cutaneous melanoma and cultured in serum-free medium in the presence of IL-2 and IL-15. Viability, proliferative, cytotoxic, and functional activities of lymphocytes are evaluated. The lymphocytes actively proliferated in this nutrient medium and can be activated in vitro. The method for obtaining sufficient amount of activated lymphocytes can be recommended for adoptive cell immunotherapy of cancer patients.

Successful fertility preservation following ovarian tissue vitrification in patients with primary ovarian insufficiency.

STUDY QUESTION: Is ovarian tissue cryopreservation using vitrification followed by in vitro activation (IVA) of dormant follicles a potential approach for infertility treatment of patients with primary ovarian insufficiency (POI)? SUMMARY ANSWER: Our vitrification approach followed by IVA treatment is a potential infertility therapy for POI patients whose ovaries contain residual follicles. WHAT IS KNOWN ALREADY: Akt (protein kinase B) stimulators [PTEN (phosphatase with TENsin homology deleted in chromosome 10) inhibitor and phosphatidyinositol-3-kinase (PI3 kinase) stimulator] activate dormant primordial follicles in vitro and ovarian fragmentation disrupts the Hippo signaling pathway, leading to the promotion of follicle growth. We treated POI patients with a combination of ovarian vitrification, fragmentation and drug treatment, followed by auto-transplantation, and reported successful follicle growth and pregnancies. STUDY DESIGN, SIZE, DURATION: Prospective clinical study of 37 infertile women with POI between 12 August 2011 and 1 November 2013. We enrolled 10 new patients since the previous publication. PARTICIPANTS/MATERIALS, SETTING, METHODS: POI patients were originally selected based on a history of amenorrhea for more than 1 year and elevated serum FSH levels of >40 mIU/ml (n = 31) but this was later changed to >4 months, age <40 years and serum FSH levels of >35 mIU/ml (n = 6) (mean 71.8 ± 30.8, range 35.5-197.6) so as to include patients with a shorter duration of amenorrhea. Under laparoscopic surgery, ovariectomy was performed and ovarian cortices were dissected into strips for vitrification. Some pieces were examined histologically. After warming, two to three strips were fragmented into smaller cubes before culturing with Akt stimulators for 2 days. After washing, ovarian cubes were transplanted beneath the serosa of Fallopian tubes under laparoscopic surgery. Follicle growth was monitored by ultrasound and serum estrogen levels. After oocyte retrieval from mature follicles, IVF was performed. MAIN RESULTS AND THE ROLE OF CHANCE: Among 37 patients, 54% had residual follicles based on histology. Among patients with follicles, 9 out of 20 showed follicle growth in auto-grafts with 24 oocytes retrieved from six patients. Following IVF and embryo transfer into four patients, three pregnancies were detected based on serum hCG, followed by one miscarriage and two successful deliveries. For predicting IVA success, we found that routine histological analyses of ovarian cortices and shorter duration from initial POI diagnosis to ovariectomy are valid parameters. LIMITATIONS, REASONS FOR CAUTION: Although our findings suggest that the present vitrification protocol is effective for ovarian tissue cryopreservation, we have not compared the potential of vitrification and slow freezing in follicle growth after grafting. We chose the serosa of Fallopian tubes as the auto-grating site due to its high vascularity and the ease to monitor follicle growth. Future studies are needed to evaluate the best auto-grafting sites for ovarian tissues. Also, future studies are needed to identify biological markers to indicate the presence of residual follicles in POI to predict IVA treatment outcome. WIDER IMPLICATIONS OF THE FINDINGS: In POI patients, ovarian reserve, namely the pool of residual follicles, continues to diminish with age. If one ovary is cryopreserved at an earlier stage of POI, patients could undergo additional non-invasive infertility treatments before the final decision for the IVA treatment. Furthermore, in the cases of unmarried POI patients, cryopreservation of ovarian tissues allows their fertility preservation until they desire to bear children. STUDY FUNDING/COMPETING INTERESTS: This work was supported by Grant-In-Aid for Scientific Research (Research B: 24390376, Challenging Exploratory Research: 24659722, and Innovative Areas, Mechanisms regulating gamete formation in animals: 26114510) and by research funds from the Smoking Research Foundation, and the Takeda Science Foundation. None of the authors has a conflict of interest. TRIAL REGISTRATION NUMBER: UMIN000010828.

Procerain B, a cysteine protease from Calotropis procera, requires N-terminus pro-region for activity: cDNA cloning and expression with pro-sequence.

We have previously reported isolation and characterization of a novel plant cysteine protease, Procerain B, from the latex of Calotropis procera. Our initial attempts for active recombinant Procerain B in Escherichiacoli expression system was not successful. The reason for inactive enzyme production was attributed to the absence of 5' pro-region in the Procerain B cDNA that may be involved in proper folding and production of mature active protein. The current manuscript reports the cloning of full length Procerain B for the production of the active protein. The complete cDNA sequence of Procerain B with pro-region sequence was obtained by using RNA ligase mediated rapid amplification of 5' cDNA ends (RLM-RACE). The N-terminus pro-sequence region consists of 127 amino acids and characterized as the member of inhibitory I29 family. Further the three dimensional structure of full length Procerain B was modelled by homology modelling using X-ray crystal structure of procaricain (PDB ID: 1PCI). N-terminus pro-sequence of full length Procerain B runs along the active site cleft. Full length Procerain B was expressed in prokaryotic system and activated in vitro at pH 4.0. This is the first study reporting the production of active recombinant cysteine protease from C.procera.

Heterologous expression and physicochemical characterization of a fungal dye-decolorizing peroxidase from Auricularia auricula-judae.

An efficient heterologous expression system for Auricularia auricula-judae dye-decolorizing peroxidase (DyP) has been constructed. DNA coding for the mature protein sequence was cloned into the pET23a vector and expressed in Escherichia coli BL21(DE3)pLysS. Recombinant DyP was obtained in high yield as inclusion bodies, and different parameters for its in vitro activation were optimized with a refolding yield of ∼8.5% of the E. coli-expressed DyP. Then, a single chromatographic step allowed the recovery of 17% of the refolded DyP as pure enzyme (1.5mg per liter of culture). The thermal stabilities of wild DyP from A. auricula-judae and recombinant DyP from E. coli expression were similar up to 60°C, but the former was more stable in the 62-70°C range. Stabilities against pH and H2O2 were also measured, and a remarkably high stability at extreme pH values (from pH 2 to 12) was observed. The kinetic constants of recombinant DyP for the oxidation of different substrates were determined and, when compared with those of wild DyP, no important differences were ascertained. Both enzymes showed high affinity for Reactive Blue 19 (anthraquinone dye), Reactive Black 5 (azo dye), 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) and 2,6-dimethoxyphenol, with similar acidic pH optima and oxidative stabilities. Oxidation of veratryl alcohol and a nonphenolic lignin model dimer were confirmed, although as minor enzymatic activities. Interestingly, two sets of kinetic constants could be obtained for the oxidation of Reactive Blue 19 and other substrates, suggesting the existence of more than one oxidation site in this new peroxidase family.

Drug-free in vitro activation combined with ADSCs-derived exosomes restores ovarian function of rats with premature ovarian insufficiency.

BACKGROUND: Drug-free in vitro activation (IVA) is a new protocol to activate residual dormant follicles for fertility restoration in patients with premature ovarian insufficiency (POI). However, several deficiencies have reduced its clinical efficacy rate. Our previous studies have confirmed that the combination of adipose-derived stem cells (ADSCs) and drug-free IVA can improve the effectiveness of drug-free IVA and restore ovarian function of rats with POI. Increasing evidence has demonstrated that mesenchymal stem cell-derived exosomes have similar therapeutic effects as their source cells. Here, we performed a preclinical study to evaluate the therapeutic effects of ADSCs-derived exosomes (ADSCs-Exos) combined with drug-free IVA in the POI rats and the mechanism in restoring ovarian function. RESULTS: In vivo, the effects of ADSCs-Exos were comparable to those of ADSCs, and the ADSCs-Exos combined with drug-free IVA was better than ADSCs-Exos alone therapy in promoting follicular development. Moreover, transplantation of ADSCs/ADSCs-Exos lead to up-regulation of BCL-2 expression and down-regulation of the expression of Bax and Cleaved Caspase-3, thus reducing the apoptosis of chemotherapy-induced follicle cells, and further promoting the development of the follicles and rescuing ovarian function in POI-damaged ovary. In vitro, ovarian fragmentation could activate follicular growth and development, and in combination with ADSCs-Exos could prevent the loss of follicles, promote follicular proliferation and inhibit apoptosis. CONCLUSIONS: ADSCs-Exos combined drug-free IVA had remarkable therapeutic effects in restoring ovarian function of POI rats, and markedly promoted follicular development and inhibited apoptosis of ovarian cells in vitro. Our study confirmed that the combination therapy might be a promising and effective treatment for POI.

Mechanisms of primordial follicle activation and new pregnancy opportunity for premature ovarian failure patients.

Primordial follicles are the starting point of follicular development and the basic functional unit of female reproduction. Primordial follicles are formed around birth, and most of the primordial follicles then enter a dormant state. Since primordial follicles are limited in number and can't be renewed, dormant primordial follicles cannot be reversed once they enter the growing state. Thus, the orderly occurrence of primordial follicles selective activation directly affects the rate of follicle consumption and thus determines the length of female reproductive lifespan. Studies have found that appropriately inhibiting the activation rate of primordial follicles can effectively slow down the rate of follicle consumption, maintain fertility and delay ovarian aging. Based on the known mechanisms of primordial follicle activation, primordial follicle in vitro activation (IVA) technique has been clinically developed. IVA can help patients with premature ovarian failure, middle-aged infertile women, or infertile women due to gynecological surgery treatment to solve infertility problems. The study of the mechanism of selective activation of primordial follicles can contribute to the development of more efficient and safe IVA techniques. In this paper, recent mechanisms of primordial follicle activation and its clinical application are reviewed.

Biological therapies for premature ovarian insufficiency: what is the evidence?

Premature Ovarian Insufficiency (POI) is a multi-factorial disorder that affects women of reproductive age. The condition is characterized by the loss of ovarian function before the age of 40 years and several factors have been identified to be implicated in its pathogenesis. Remarkably though, at least 50% of women have remaining follicles in their ovaries after the development of ovarian insufficiency. Population data show that approximately up to 3.7% of women worldwide suffer from POI and subsequent infertility. Currently, the treatment of POI-related infertility involves oocyte donation. However, many women with POI desire to conceive with their own ova. Therefore, experimental biological therapies, such as Platelet-Rich Plasma (PRP), Exosomes (exos) therapy, In vitro Activation (IVA), Stem Cell therapy, MicroRNAs and Mitochondrial Targeting Therapies are experimental treatment strategies that focus on activating oogenesis and folliculogenesis, by upregulating natural biochemical pathways (neo-folliculogenesis) and improving ovarian microenvironment. This mini-review aims at identifying the main advantages of these approaches and exploring whether they can underpin existing assisted reproductive technologies.

Potential Therapeutic Options for Premature Ovarian Insufficiency: Experimental and Clinical Evidence.

Premature ovarian insufficiency (POI) is a condition in which a woman experiences premature decline in ovarian function before the age of 40 years, manifested by menstrual disorders, decreased fertility, and possibly postmenopausal symptoms such as insomnia, hot flashes, and osteoporosis, and is one of the predominant clinical syndromes leading to female infertility. Genetic, immunologic, iatrogenic and other factors, alone or in combination, have been reported to trigger POI, yet the etiology remains unknown in most cases. The main methods currently used clinically to ameliorate menopausal symptoms due to hypoestrogenemia in POI patients are hormone replacement therapy, while the primary methods available to address infertility in POI patients are oocyte donation and cryopreservation techniques, both of which have limitations to some degree. In recent years, researchers have continued to explore more efficient and safe therapies, and have achieved impressive results in preclinical trials. In this article, we will mainly review the three most popular therapies and their related signaling pathways published in the past ten years, with the aim of providing ideas for clinical applications.