Single‐cell RNA‐sequencing of retrieved human oocytes and eggs in clinical practice and for human ovarian cell atlasing

Machlin, Jordan H.; Shikanov, Ariella

doi:10.1002/mrd.23648

Cited by 4 publications

(2 citation statements)

References 79 publications

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“…Ovarian aging compromises fertility and causes multiple pathological conditions, and unveiling mechanisms of ovarian aging is therefore of both scientific and clinical importance. Pioneering studies of single-cell transcriptomic analyses have dissected the cellular and molecular features of ovarian aging with single-cell accuracy ( Ben Yaakov et al, 2023 ; Cai et al, 2022 ; Isola et al, 2023 ; Lengyel et al, 2022 ; Machlin and Shikanov, 2022 ; Mishina et al, 2021 ; Wang et al, 2020 ; Wei et al, 2023 ; Yuan et al, 2021 ). However, biases introduced by digestion steps and the absence of spatial information presents challenges for the use of single-cell omics to determine accurate age-dependent changes corresponding to its spatial locus.…”

Section: Discussionmentioning

confidence: 99%

Aging hallmarks of the primate ovary revealed by spatiotemporal transcriptomics

Lu,

Jing,

Zhang

et al. 2023

Protein &Amp; Cell

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The ovary is indispensable for female reproduction, and its age-dependent functional decline is the primary cause of infertility. However, the molecular basis of ovarian aging in higher vertebrates remains poorly understood. Herein, we apply spatiotemporal transcriptomics to benchmark architecture organization as well as cellular and molecular determinants in young primate ovaries and compare these to aged primate ovaries. From a global view, somatic cells within the non-follicle region undergo more pronounced transcriptional fluctuation relative to those in the follicle region, likely constituting a hostile microenvironment that facilitates ovarian aging. Further, we uncovered that inflammation, the senescent associated secretory phenotype (SASP), senescence and fibrosis are the likely primary contributors to ovarian aging (PCOA). Of note, we identified spatial co-localization between a PCOA-featured spot and an unappreciated MT2 (Metallothionein 2) highly expressing spot (MT2high) characterized by high levels of inflammation, potentially serving as an aging hotspot in the primate ovary. Moreover, with advanced age, a subpopulation of MT2high accumulates, likely disseminating and amplifying the senescent signal outward. Our study establishes the first primate spatiotemporal transcriptomic atlas, advancing our understanding of mechanistic determinants underpinning primate ovarian aging and unraveling potential biomarkers and therapeutic targets for aging and age-associated human ovarian disorders.

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Section: Discussionmentioning

confidence: 99%

Aging hallmarks of the primate ovary revealed by spatiotemporal transcriptomics

Lu,

Jing,

Zhang

et al. 2023

Protein &Amp; Cell

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“…This switch involves the repression of mRNAs that are highly active in quiescent oocytes and the activation of mRNAs that were repressed. In the recent years, the use of single-cell RNA sequencing (scRNA-seq) technology has contributed to investigating transcriptional differences in oocytes [ 6 ]. Through the present systematic review, authors aim to identify quantitative differences in transcriptome of human oocytes that may link to patient demographics that could affect oocyte competence.…”

Section: Introductionmentioning

confidence: 99%

Systematic review of mRNA expression in human oocytes: understanding the molecular mechanisms underlying oocyte competence

Gonzalez

Almutlaq

Gupta

2023

J Assist Reprod Genet

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The biggest cell in the human body, the oocyte, encloses almost the complete machinery to start life. Despite all the research performed to date, defining oocyte quality is still a major goal of reproductive science. It is the consensus that mature oocytes are transcriptionally silent although, during their growth, the cell goes through stages of active transcription and translation, which will endow the oocyte with the competence to undergo nuclear maturation, and the oocyte and embryo to initiate timely translation before the embryonic genome is fully activated (cytoplasmic maturation). A systematic search was conducted across three electronic databases and the literature was critically appraised using the KMET score system. The aim was to identify quantitative differences in transcriptome of human oocytes that may link to patient demographics that could affect oocyte competence. Data was analysed following the principles of thematic analysis. Differences in the transcriptome were identified with respect to age or pathological conditions and affected chromosome mis segregation, perturbations of the nuclear envelope, premature maturation, and alterations in metabolic pathways—amongst others—in human oocytes.

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Single‐cell RNA‐sequencing of retrieved human oocytes and eggs in clinical practice and for human ovarian cell atlasing

Machlin

Shikanov

2022

Molecular Reproduction Devel

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With the advancement of single‐cell separation techniques and high‐throughput sequencing platforms, single‐cell RNA‐sequencing (scRNA‐seq) has emerged as a vital technology for understanding tissue and organ systems at cellular resolution. Through transcriptional analysis, it is possible to characterize unique or rare cell types, interpret their interactions, and reveal novel functional states or shifts in developmental stages. As such, this technology is uniquely suited for studying the cells within the human ovary. The ovary is a cellularly heterogeneous organ that houses follicles, the reproductive and endocrine unit that consists of an oocyte surrounded by hormone‐producing support cells, as well as many other cell populations constituting stroma, vasculature, lymphatic, and immune components. Here we review studies that have utilized scRNA‐seq technology to analyze cells from healthy human ovaries and discuss the single‐cell isolation techniques used. We identified two overarching applications for scRNA‐seq in the human ovary. The first applies this technology to investigate transcriptional differences in oocytes/eggs from patients undergoing in vitro fertilization treatments to ultimately improve clinical outcomes. The second utilizes scRNA‐seq for the pursuit of creating a comprehensive single‐cell atlas of the human ovary. The knowledge gained from these studies underscores the importance of scRNA‐seq technologies in unlocking a new biological understanding of the human ovary.

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Single‐cell RNA‐sequencing of retrieved human oocytes and eggs in clinical practice and for human ovarian cell atlasing

Cited by 4 publications

References 79 publications

Aging hallmarks of the primate ovary revealed by spatiotemporal transcriptomics

Aging hallmarks of the primate ovary revealed by spatiotemporal transcriptomics

Systematic review of mRNA expression in human oocytes: understanding the molecular mechanisms underlying oocyte competence

Single‐cell RNA‐sequencing of retrieved human oocytes and eggs in clinical practice and for human ovarian cell atlasing

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