Letícia Bruna Corrêa Penariol scite author profile

Given the importance of menstrual blood in the pathogenesis of endometriosis and the multifunctional roles of menstrual mesenchymal stem cells (MenSCs) in regenerative medicine, this issue has gained prominence in the scientific community. Moreover, recent reviews highlight how robust the integrated assessment of omics data are for endometriosis. To our knowledge, no study has applied the multi-omics approaches to endometriosis MenSCs. This is a case-control study at a university-affiliated hospital. MenSCs transcriptome and proteome data were obtained by RNA-seq and UHPLC-MS/MS detection. Among the differentially expressed proteins and genes, we emphasize ATF3, ID1, ID3, FOSB, SNAI1, NR4A1, EGR1, LAMC3, and ZFP36 genes and MT2A, TYMP, COL1A1, COL6A2, and NID2 proteins that were already reported in the endometriosis. Our functional enrichment analysis reveals integrated modulating signaling pathways such as epithelial–mesenchymal transition (↑) and PI3K signaling via AKT to mTORC1 (↓ in proteome), mTORC1 signaling, TGF beta signaling, TNFA signaling via NFkB, IL6 STAT3 signaling, and response to hypoxia via HIF1A targets (↑ in transcriptome). Our findings highlight primary changes in the endometriosis MenSCs, suggesting that the chronic inflammatory endometrial microenvironment can modulate these cells, providing opportunities for endometriosis etiopathogenesis. Moreover, they identify challenges for future research leveraging knowledge for regenerative and precision medicine in endometriosis.

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Identification of suitable reference genes for mesenchymal stem cells from menstrual blood of women with endometriosis

Zucherato

Penariol

Silva

et al. 2021

Sci Rep

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It has been suggested that menstrual blood-derived mesenchymal stem/stromal cells (MenMSCs) are associated with the etiopathogenesis of endometriosis and considerable effort has been invested in searching for target genes and deciphering associated molecular pathways. However, reference gene stability for proper reproducible normalization in the analyses of the expression data validation is still unexplored in this experimental context. Therefore, in this exploratory study, we used stringent case and control selection criteria and collected menstrual blood from women with a laparoscopic diagnosis of advanced endometriosis and from fertile women without endometriosis. We tested for the first time the stability of 32 candidate reference genes to achieve increased accuracy and reliable results in the quantification of gene expression and direct future experiments using reverse transcription-quantitative PCR (RT-qPCR) in MenMSCs for endometriosis studies. Using the RefFinder web tool, we recommend the EIF2B1 and POP4 reference genes for the normalization of RT-qPCR data in study designs similar to ours. Furthermore, we suggest avoiding the commonly used GAPDH and ACTB reference genes as they are unstable. This high-visibility study is capable of directing different experimental designs as MenMSCs are derived from a minimally invasive tissue source with multifunctional roles in regenerative medicine.

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Manual De Ginecologia Endócrina E Infertilidade Conjugal

Bartmann¹,

Dias²,

Matthes³

et al. 2018

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What do the Transcriptome and Proteome of Menstrual Blood-derived Mesenchymal Stem Cells Tell us about Endometriosis?

Penariol¹,

Thomé²,

Tozetti³

et al. 2022

Preprint

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Given the importance of menstrual blood in the pathogenesis of endometriosis and the multifunctional roles of menstrual mesenchymal stem cells (MenSCs) in regenerative medicine, this issue has gained prominence in the scientific community. Moreover, recent reviews highlight how robust the integrated assessment of omics data is for endometriosis. To our knowledge, no study has applied the multi-omics approaches to endometriosis MenSCs. It is a case-control study at a university-affiliated hospital. MenSCs transcriptome and proteome data were obtained by RNA-seq and UHPLC-MS/MS detection. Among the differentially expressed proteins and genes, we emphasize ATF3, ID1, ID3, FOSB, SNAI1, NR4A1, EGR1, LAMC3, and ZFP36 genes and MT2A, TYMP, COL1A1, COL6A2, and NID2 proteins that were already reported in the endometriosis. Our functional enrichment analysis reveals integrated modulating signaling pathways such as epithelial-mesenchymal transition (↑) and PI3K signaling via AKT to mTORC1 (↓in proteome), mTORC1 signaling, TGF beta signaling, TNFA signaling via NFkB, and response to hypoxia via HIF1A targets (↑in transcriptome). Our findings highlight primary changes in the endometriosis MenSCs, suggesting that the chronic inflammatory endometrial microenvironment can modulate these cells, providing opportunities for endometriosis etiopathogenesis. Moreover, they identify challenges for future research leveraging knowledge for regenerative and precision medicine in endometriosis.

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Análise do transcriptoma e proteoma de células-tronco mesenquimais derivadas do fluxo menstrual de mulheres com endometriose

Penariol¹

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Dada a importância do sangue menstrual na patogênese da endometriose e os papéis multifuncionais das células-tronco menstruais (MenSCs) na medicina regenerativa, como fonte não invasiva para futuras aplicações clínicas, este tema tem ganhado destaque na comunidade científica e no contexto da endometriose. Revisões recentes acentuam a importância da era "ômica" para a endometriose e destacam quão poderosa é a avaliação integrada desses dados. Até onde sabemos, nenhum estudo utilizou as abordagens multi ômicas em células-tronco mesenquimais derivadas do sangue menstrual na condição de endometriose. Aqui, descrevemos o perfil do transcriptoma e do proteoma dessas células progenitoras, destacando as vias de sinalização desreguladas (sinalização PI3K via AKT para mTORC1, sinalização mTORC1, sinalização TNFA via NFkB, sinalização IL6 STAT3 durante a resposta de fase aguda, sinalização TGF beta e hipóxia via alvos de HIF1A) que modulam os processos biológicos envolvidos na angiogênese, proliferação, migração celular e resposta inflamatória. Além disso, destacamos os genes ATF3, ID1, ID3, FOSB, SNAI1, NR4A1, EGR1, LAMC3 e ZFP36 e as proteínas MT2A, TYMP, COL1A1, COL6A2 e NID2 que, quando desequilibrados, podem desempenhar um papel essencial na etiopatogenia da endometriose. Esses desbalanços sugerem que o microambiente endometrial inflamatório crônico pode modular essas células e desta forma, oferecer oportunidades para a etiopatogenia da doença. Nossos resultados são importantes para identificar desafios e oportunidades para pesquisas futuras e alavancar o conhecimento em medicina regenerativa e de precisão na doença.

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Downregulation of DROSHA: Could It Affect miRNA Biogenesis in Endometriotic Menstrual Blood Mesenchymal Stem Cells?

Cressoni

Penariol

Padovan

et al. 2023

IJMS

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Menstrual blood mesenchymal stem cells (MenSCs) have gained prominence in the endometriosis scientific community, given their multifunctional roles in regenerative medicine as a noninvasive source for future clinical applications. In addition, changes in post-transcriptional regulation via miRNAs have been explored in endometriotic MenSCs with a role in modulating proliferation, angiogenesis, differentiation, stemness, self-renewal, and the mesenchymal–epithelial transition process. In this sense, homeostasis of the miRNA biosynthesis pathway is essential for several cellular processes and is related to the self-renewal and differentiation of progenitor cells. However, no studies have investigated the miRNA biogenesis pathway in endometriotic MenSCs. In this study, we profiled the expression of eight central genes for the miRNA biosynthesis pathway under experimental conditions involving a two-dimensional culture of MenSCs obtained from healthy women (n = 10) and women with endometriosis (n = 10) using RT-qPCR and reported a two-fold decrease in DROSHA expression in the disease. In addition, miR-128-3p, miR-27a-3p, miR-27b-3p, miR-181a-5p, miR-181b-5p, miR-452-3p, miR-216a-5p, miR-216b-5p, and miR-93-5p, which have been associated with endometriosis, were identified through in silico analyses as negative regulators of DROSHA. Because DROSHA is essential for miRNA maturation, our findings may justify the identification of different profiles of miRNAs with DROSHA-dependent biogenesis in endometriosis.

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