Rodríguez-Varela Cristina, Herraiz Sonia, Labarta Elena
IVI Foundation - IIS La Fe, 46026 Valencia, Spain.
IVI Foundation - IIS La Fe, Valencia, Spain.
Ther Adv Reprod Health. 2021 Jun 28;15:26334941211023544. doi: 10.1177/26334941211023544. eCollection 2021 Jan-Dec.
Poor ovarian responders exhibit a quantitative reduction in their follicular pool, and most cases are also associated with poor oocyte quality due to patient's age, which leads to impaired fertilisation outcomes. In particular, poor oocyte quality has been related to mitochondrial dysfunction and/or low mitochondrial count as these organelles are crucial in many essential oocyte processes. Therefore, mitochondrial enrichment has been proposed as a potential therapy option in infertile patients to improve oocyte quality and subsequent fertilisation outcomes. Nowadays, different options are available for mitochondrial enrichment treatments that are encompassed in two main approaches: heterologous and autologous. In the heterologous approach, mitochondria come from an external source, which is an oocyte donor. These techniques include transferring either a portion of the donor's oocyte cytoplasm to the recipient oocyte or nuclear material from the patient to the donor's oocyte. In any case, this approach entails many ethical and safety concerns that mainly arise from the uncertain degree of mitochondrial heteroplasmy deriving from it. Thus the autologous approach is considered a suitable potential tool to improve oocyte quality by overcoming the heteroplasmy issue. Autologous mitochondrial transfer, however, has not yielded as many beneficial outcomes as initially expected. Proposed mitochondrial autologous sources include immature oocytes, granulosa cells, germline stem cells, and adipose-derived stem cells. Presently, it would seem that these autologous techniques do not improve clinical outcomes in human infertile patients. However, further trials still need to be performed to confirm these results. Besides these two main categories, new strategies have arisen for oocyte rejuvenation by improving patient's own mitochondrial function and avoiding the unknown consequences of third-party genetic material. This is the case of antioxidants, which may enhance mitochondrial activity by counteracting and/or preventing oxidative stress damage. Among others, coenzyme-Q10 and melatonin have shown promising results in low-prognosis infertile patients, although further randomised clinical trials are still necessary.
卵巢低反应者的卵泡池数量减少,而且由于患者年龄的原因,大多数病例还伴有卵母细胞质量差的问题,这会导致受精结果受损。特别是,卵母细胞质量差与线粒体功能障碍和/或线粒体数量低有关,因为这些细胞器在许多重要的卵母细胞过程中起着关键作用。因此,线粒体富集已被提议作为不育患者的一种潜在治疗选择,以提高卵母细胞质量和随后的受精结果。如今,有不同的线粒体富集治疗方法,主要分为两种主要途径:异源和自体。在异源途径中,线粒体来自外部来源,即卵母细胞供体。这些技术包括将供体卵母细胞的一部分细胞质转移到受体卵母细胞中,或者将患者的核物质转移到供体卵母细胞中。无论哪种情况,这种方法都带来了许多伦理和安全问题,主要源于由此产生的线粒体异质性程度不确定。因此,自体途径被认为是克服异质性问题、提高卵母细胞质量的合适潜在工具。然而,自体线粒体转移并没有产生如最初预期的那么多有益结果。提议的自体线粒体来源包括未成熟卵母细胞、颗粒细胞、生殖系干细胞和脂肪来源的干细胞。目前,这些自体技术似乎并没有改善人类不育患者的临床结果。然而,仍需要进一步的试验来证实这些结果。除了这两个主要类别外,还出现了通过改善患者自身线粒体功能和避免第三方遗传物质的未知后果来使卵母细胞恢复活力的新策略。抗氧化剂就是这样的例子,它可以通过抵消和/或预防氧化应激损伤来增强线粒体活性。其中,辅酶Q10和褪黑素在预后不良的不育患者中已显示出有希望的结果,尽管仍需要进一步的随机临床试验。
