Genes Involved in the Processes of Cell Proliferation, Migration, Adhesion, and Tissue Development as New Potential Markers of Porcine Granulosa Cellular Processes<i>In Vitro</i>: A Microarray Approach

Ożegowska, Katarzyna; Brązert, Maciej; Ciesiółka, Sylwia; Nawrocki, Mariusz J.; Kranc, Wiesława; Celichowski, Piotr; Jankowski, Maurycy; Bryja, Artur; Ješeta, Michal; Antosik, Paweł; Bukowska, Dorota; Skowroński, Mariusz T.; Bruska, M; Pawełczyk, Leszek; Zabel, Maciej; Nowicki, Michał; Kempisty, Bartosz

doi:10.1089/dna.2018.4467

Cited by 27 publications

(15 citation statements)

References 37 publications

(44 reference statements)

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“…Consistently, Donadeu et al reported in a transcriptome profiling study that a large number of down-regulated DE genes in granulosa cells from horse ovarian follicles were enriched in the ECM during follicle dominance (Donadeu et al, 2014). Ożegowska et al also reported genes enriched in cell adhesion as new potential markers by analyzing the transcriptome of porcine granulosa cells (Ożegowska et al, 2019). The ECM and ECM protein form a complex scaffold of protein that provides the architectural support for cells.…”

Section: Discussionmentioning

confidence: 99%

mRNA and miRNA Transcriptome Profiling of Granulosa and Theca Layers From Geese Ovarian Follicles Reveals the Crucial Pathways and Interaction Networks for Regulation of Follicle Selection

Qin

Wang

et al. 2019

Front. Genet.

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Follicle development is characterized by the recruitment, growth, selection, and dominance of follicles, and follicle selection determines the lifetime reproductive performance. However, in birds, the molecular mechanisms underlying follicle selection still remain elusive. This study analyzed genome-wide changes in the mRNA and miRNA expression profiles in both the granulosa and theca layers of geese ovarian follicles before selection (4–6- and 8–10-mm follicles) and after selection (F5). The sequencing results showed that a higher number of both differentially expressed (DE) mRNAs and DE miRNAs were identified between 8–10-mm and F5 follicles compared with those between the 4–6- and 8–10-mm follicles, especially in the granulosa layer. Moreover, a Short Time-series Expression Miner analysis identified a large number of DE mRNAs and DE miRNAs that are associated with follicle selection. The functional enrichment analysis showed that DE genes in the granulosa layer during follicle selection were mainly enriched in five pathways related to junctional adhesion and two pathways associated with lipid metabolism. Additionally, an interaction network was constructed to visualize interactions among protein-coding genes, which identified 53 junctional adhesion- and 15 lipid regulation-related protein-coding genes. Then, a co-expression network between mRNAs and miRNAs in relation to junctional adhesion was also visualized and mainly included acy-miR-2954, acy-miR-218, acy-miR-2970, acy-miR-100, acy-miR-1329, acy-miR-199, acy-miR-425, acy-miR-181, and acy-miR-147. Furthermore, miRNA–mRNA interaction pairs related to lipid regulation were constructed including acy-miR-107, acy-miR-138, acy-miR-130, acy-miR-128, and acy-miR-101 during follicular selection. In summary, these data highlight the key roles of junctional adhesion and lipid metabolism during follicular selection and contribute to a better understanding of the mechanisms underlying follicle selection in birds.

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Section: Discussionmentioning

confidence: 99%

mRNA and miRNA Transcriptome Profiling of Granulosa and Theca Layers From Geese Ovarian Follicles Reveals the Crucial Pathways and Interaction Networks for Regulation of Follicle Selection

Qin

Wang

et al. 2019

Front. Genet.

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“…Further analyses revealed five pathways in both comparisons: the intestinal immune network for IgA production, neuroactive ligand-receptor interaction, herpes simplex infection, phagosome, and calcium signaling pathways ( Figure 6). Moreover, a total of 28 differentially expressed genes, including genes related to ovary development, such as GH [16], ITGB3 [17], and TSHB [18], were detected in the five pathways ( Table 2). Some genes that may be important to ovary development, that is, PRL [19] and TGFB3 [20,21], were found in one of the two comparisons.…”

Section: Go and Kegg Pathway Enrichment Analyses Of Differential Genementioning

confidence: 99%

Gene Expression Profiling in Ovaries and Association Analyses Reveal HEP21 as a Candidate Gene for Sexual Maturity in Chickens

Chen

Liang

Zhu

et al. 2020

Animals

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The age of onset of sexual maturity is an important reproductive trait in chickens. In this study, we explored candidate genes associated with sexual maturity and ovary development in chickens. We performed DGE RNA-sequencing analyses of ovaries of pre-laying (P-F-O1, L-F-O1) and laying (P-F-O2, L-F-O2) hens of two sub-breeds of Ningdu Yellow chicken. A total of 3197 genes were identified in the two comparisons, and 966 and 1860 genes were detected exclusively in comparisons of P-F-O1 vs. P-F-O2 and L-F-O1 vs. L-F-O2, respectively. Gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses showed that genes involved in transmembrane signaling receptor activity, cell adhesion, developmental processes, the neuroactive ligand–receptor interaction pathway, and the calcium signaling pathway were enriched in both comparisons. Genes on these pathways, including growth hormone (GH), integrin subunit beta 3 (ITGB3), thyroid stimulating hormone subunit beta (TSHB), prolactin (PRL), and transforming growth factor beta 3 (TGFB3), play indispensable roles in sexual maturity. As a gene unique to poultry, hen egg protein 21 kDa (HEP21) was chosen as the candidate gene. Differential expression and association analyses were performed. RNA-seq data and qPCR showed that HEP21 was significantly differentially expressed in pre-pubertal and pubertal ovaries. A total of 23 variations were detected in HEP21. Association analyses of single nucleotide polymorphisms (SNPs) in HEP21 and reproductive traits showed that rs315156783 was significantly related to comb height at 84 and 91 days. These results indicate that HEP21 is a candidate gene for sexual maturity in chickens. Our results contribute to a more comprehensive understanding of sexual maturity and reproduction in chickens.

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“…Previous studies have shown that the outer layer of granular cell ( GC ) is always above the basement membrane formed by collagen and laminin, and is protected by the follicular basement membrane from the primordial follicle stage to the dominant follicle selection stage of the final ovulation. The presence of laminin in the basement membrane may promote the growth and ovulation of the dominant follicle in follicular selection by enhancing the proliferation of GC ( Monniaux et al, 1999 ; Ożegowska et al, 2019 ). Cadherins, integrins, CAMs of the immunoglobulin superfamily, and selectins are considered the foremost CAMs classes ( Senderoff, 2013 ), among which N-cadherin plays an indispensable role in follicle formation, and its expression has been increasing during phase of developing follicles.…”

Section: Discussionmentioning

confidence: 99%

Nanopore-based full-length transcriptome sequencing of Muscovy duck (Cairina moschata) ovary

Bai

et al. 2021

Poultry Science

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Unlike mammals, studies on mechanisms that regulate waterfowl ovulation have been rarely reported. To advance our understanding of the ovulation differences in Muscovy duck, we utilized the Oxford Nanopore Technologies ( ONT ) to generate transcriptome data from 3 groups of female duck ovaries with ovulation differences (i.e., preovulation [ PO] , consecutive ovulation [ CO ], and inconsecutive ovulation [ IO ]). In this study, the full-length transcriptome data qualitative analysis showed that a total of 24,504 nonredundant full-length transcripts were generated, 19,060 new transcripts were discovered and 14,848 novel transcripts were successfully annotated. For the quantitative analysis, differentially expressed genes ( DEGs ) between the 3 groups were identified and functional properties were characterized. CTNNB1, IGF1, FOXO3, HSPA2, PTEN and SMC4 may be potential hub genes that regulate ovulation. Adhesion-related pathway, mTOR pathway, TGF-β signaling pathway and FoxO signaling pathway have been considered as important pathways that affect follicular development and ovulation. These results provide a more complete data source of full-length transcriptome for the further study of gene expression and genetics in Muscovy duck. The hub genes and potential mechanisms that affect the ovulation of Muscovy duck have been screened out to provide a scientific basis for breeding work to improve the reproduction performance of Muscovy duck.

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Genes Involved in the Processes of Cell Proliferation, Migration, Adhesion, and Tissue Development as New Potential Markers of Porcine Granulosa Cellular ProcessesIn Vitro: A Microarray Approach

Cited by 27 publications

References 37 publications

mRNA and miRNA Transcriptome Profiling of Granulosa and Theca Layers From Geese Ovarian Follicles Reveals the Crucial Pathways and Interaction Networks for Regulation of Follicle Selection

mRNA and miRNA Transcriptome Profiling of Granulosa and Theca Layers From Geese Ovarian Follicles Reveals the Crucial Pathways and Interaction Networks for Regulation of Follicle Selection

Gene Expression Profiling in Ovaries and Association Analyses Reveal HEP21 as a Candidate Gene for Sexual Maturity in Chickens

Nanopore-based full-length transcriptome sequencing of Muscovy duck (Cairina moschata) ovary

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