BEND2 is a crucial player in oogenesis and reproductive aging
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Curated by eLife
eLife assessment
This study provides valuable information on a novel gene that regulates meiotic progression in both male and female meiosis, but the evidence supporting the conclusions of the authors on the role of BEND2 in oogenesis and reproductive aging is incomplete. This study will be of interest to developmental and reproductive biologists.
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Abstract
Reproductive aging, characterized by a decline in female reproductive potential, is a significant biomedical challenge. A key factor in reproductive aging is the depletion of the ovarian reserve, the pool of primordial follicles in the ovary. Recent studies have implicated BEND2, a BEN domain-containing protein family member, in mammalian spermatogenesis. In the testis, Bend2 expresses two protein isoforms: full-length and truncated. Ablation of both proteins results in an arrested spermatogenesis. Because the Bend2 locus is on the X chromosome, and the Bend2 -/y mutants are sterile, Bend2 ’s role in oogenesis remained elusive.In this study, we employed a novel Bend2 mutation that completely blocks the expression of the full-length BEND2 protein but allows the expression of the truncated BEND2 isoform. However, this mutation does not confer male sterility, allowing us to investigate BEND2’s role in mice’s oocyte quality, follicular dynamics, and fertility. Our findings demonstrate that full-length BEND2 is dispensable for male fertility, and its ablation leads to impaired oocyte quality, reduced follicular formation, and an accelerated decline in fertility. These results reveal a critical role for BEND2 in oogenesis and provide insights into the mechanisms underlying reproductive aging. Furthermore, these findings hold relevance for the diagnostic landscape of human infertility.
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eLife assessment
This study provides valuable information on a novel gene that regulates meiotic progression in both male and female meiosis, but the evidence supporting the conclusions of the authors on the role of BEND2 in oogenesis and reproductive aging is incomplete. This study will be of interest to developmental and reproductive biologists.
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Reviewer #1 (Public Review):
Summary:
In this manuscript, the authors investigate the role of BEND2, a novel regulator of meiosis, in both male and female fertility. Huang et al have created a mouse model where the full-length BEND2 transcript is depleted but the truncated BEND2 version remains. This mouse model is fertile, and the authors used it to study the role of BEND2 on both male and female meiosis. Overall, the full-length BEND2 appears dispensable for male meiosis. The more interesting phenotype was observed in females. Females exhibit a lower ovarian reserve suggesting that full-length BEND2 is involved in the establishment of the primordial follicle pool.
Strengths:
The authors generated a mouse model that enabled them to study the role of BEND2 in meiosis. The role of BEND2 in female fertility is novel and enhances our …
Reviewer #1 (Public Review):
Summary:
In this manuscript, the authors investigate the role of BEND2, a novel regulator of meiosis, in both male and female fertility. Huang et al have created a mouse model where the full-length BEND2 transcript is depleted but the truncated BEND2 version remains. This mouse model is fertile, and the authors used it to study the role of BEND2 on both male and female meiosis. Overall, the full-length BEND2 appears dispensable for male meiosis. The more interesting phenotype was observed in females. Females exhibit a lower ovarian reserve suggesting that full-length BEND2 is involved in the establishment of the primordial follicle pool.
Strengths:
The authors generated a mouse model that enabled them to study the role of BEND2 in meiosis. The role of BEND2 in female fertility is novel and enhances our knowledge of genes involved in the establishment of the primordial follicle pool.
Weaknesses:
The manuscript extensively explores the role of BEND2 in male meiosis; however, a more interesting result was obtained from the study of female mice. Only a few experiments were performed using female mice, therefore, more experiments should be performed to complete the story of the role of BEND2 on female fertility. In addition, the title and abstract of the manuscript do not align with the story, as female fertility is only a small portion of the data compared to the male fertility section.
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Reviewer #2 (Public Review):
In their manuscript entitled "BEND2 is a crucial player in oogenesis and reproductive aging", the authors present their findings that full-length BEND2 is important for repair of meiotic double strand break repair in spermatocytes, regulation of LINE-1 elements in spermatocytes, and proper oocyte meiosis and folliculogenesis in females. The manuscript utilizes an elegant system to specifically ablate the full-length form of BEND2 which has been historically difficult to study due to its location on the X chromosome and male sterility of global knockout animals.
While the manuscript is an overall excellent addition to the field, it would significantly benefit from a few additional experiments, as well as some additional clarification/elaboration.
The claim that BEND2 is required for ovarian reserve …
Reviewer #2 (Public Review):
In their manuscript entitled "BEND2 is a crucial player in oogenesis and reproductive aging", the authors present their findings that full-length BEND2 is important for repair of meiotic double strand break repair in spermatocytes, regulation of LINE-1 elements in spermatocytes, and proper oocyte meiosis and folliculogenesis in females. The manuscript utilizes an elegant system to specifically ablate the full-length form of BEND2 which has been historically difficult to study due to its location on the X chromosome and male sterility of global knockout animals.
While the manuscript is an overall excellent addition to the field, it would significantly benefit from a few additional experiments, as well as some additional clarification/elaboration.
The claim that BEND2 is required for ovarian reserve establishment is not supported, as the authors only look at folliculogenesis and oocyte abundance starting at one week of age, after the reserve is formed. Analysis of earlier time points would be much more convincing and would parse the role of BEND2 in the establishment vs. maintenance of this cell population. In spermatocytes, the authors demonstrate a loss of nuclear BEND2 in their mutant but do not comment on the change in localization (which is now cytoplasmic) of the remaining protein in these animals. This may have true biological significance and a discussion of this should be more thoroughly explored.
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Reviewer #3 (Public Review):
Summary:
Huang et al. investigated the phenotype of Bend2 mutant mice which expressed a truncated isoform. This mutant male showed increasing apoptosis due to unrepaired double-strand breaks. However, this mutant male has fertility, and this enabled them to analyze Bend2 function in females. They revealed that Bend2 mutation in females showed decreasing follicle numbers which leads to loss of ovarian reserve.
Strengths:
Since their Bend2 mutant males were fertile, they were able to analyze the function of Bend2 in females and they revealed that loss of Bend2 causes less follicle formation.
Weaknesses:
Why the phenotype of their mutant male is different from previous work (Ma et al.) is not clear enough although they discuss it.
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