ECM alterations in Fndc3a (Fibronectin Domain Containing Protein 3A) deficient zebrafish cause temporal fin development and regeneration defects

Liedtke, Daniel; Orth, Melanie; Meissler, Michelle; Geuer, Sinje; Knaup, Sabine; Köblitz, Isabell; Klopocki, Eva

doi:10.1038/s41598-019-50055-w

Cited by 11 publications

(11 citation statements)

References 66 publications

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“…tp63 zebrafish morphants affect skin integrity by making the skin more prone to microbial infection 29 . fndc3a −/− zebrafish show broken actinotrichia, aberrant collagen localization and cellular defects in epidermal cells during caudal fin development 30 . It is possible that these genes function downstream of the SUMOylation pathway, leading to phenotypes that overlap the UBA2- related syndrome.…”

Section: Discussionmentioning

confidence: 99%

UBA2 variants underlie a recognizable syndrome with variable aplasia cutis congenita and ectrodactyly

Schnur

Yousaf

Liu

et al. 2021

Genetics in Medicine

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Section: Discussionmentioning

confidence: 99%

UBA2 variants underlie a recognizable syndrome with variable aplasia cutis congenita and ectrodactyly

Schnur

Yousaf

Liu

et al. 2021

Genetics in Medicine

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“…Heatmap clusters 2 and 3 contain genes that are significantly higher in fetal tenocytes compared to both adult and ESCtenocytes and include ADGRL3, which play a role in cell adhesion, and LURAP1L, which is involved in cell migration. FNDC3A is involved in extremity development and fin regeneration [90], but its role in mammalian limb development is still to be determined. Other genes in these clusters have no clear role in tendon development.…”

Section: Discussionmentioning

confidence: 99%

Genome-wide transcriptome analysis reveals equine embryonic stem cell-derived tenocytes resemble fetal, not adult tenocytes

et al. 2020

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Background Tendon injuries occur frequently in human and equine athletes. Treatment options are limited, and the prognosis is often poor with functionally deficient scar tissue resulting. Fetal tendon injuries in contrast are capable of healing without forming scar tissue. Embryonic stem cells (ESCs) may provide a potential cellular therapeutic to improve adult tendon regeneration; however, whether they can mimic the properties of fetal tenocytes is unknown. To this end, understanding the unique expression profile of normal adult and fetal tenocytes is crucial to allow validation of ESC-derived tenocytes as a cellular therapeutic. Methods Equine adult, fetal and ESC-derived tenocytes were cultured in a three-dimensional environment, with histological, morphological and transcriptomic differences compared. Additionally, the effects on gene expression of culturing adult and fetal tenocytes in either conventional two-dimensional monolayer culture or three-dimensional culture were compared using RNA sequencing. Results No qualitative differences in three-dimensional tendon constructs generated from adult, fetal and ESCs were found using histological and morphological analysis. However, genome-wide transcriptomic analysis using RNA sequencing revealed that ESC-derived tenocytes’ transcriptomic profile more closely resembled fetal tenocytes as opposed to adult tenocytes. Furthermore, this study adds to the growing evidence that monolayer cultured cells’ gene expression profiles converge, with adult and fetal tenocytes having only 10 significantly different genes when cultured in this manner. In contrast, when adult and fetal tenocytes were cultured in 3D, large distinctions in gene expression between these two developmental stages were found, with 542 genes being differentially expressed. Conclusion The information provided in this study makes a significant contribution to the investigation into the differences between adult reparative and fetal regenerative cells and supports the concept of using ESC-derived tenocytes as a cellular therapy. Comparing two- and three-dimensional culture also indicates three-dimensional culture as being a more physiologically relevant culture system for determining transcriptomic difference between the same cell types from different developmental stages.

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“…Thus, 13-times-more FND3A peptides were identified in the wild-type trophoblasts ( Figure 6 B) which could be an indicator for the involvement of FND3A proteins in modelling the extracellular matrix of trophoblasts. For example, in Fndc3a- deficient zebrafish, changes in the extracellular matrix occur with defects in the fin development and regeneration [ 48 ]. The FND3A protein contains nine fibronectin type III domains and is necessary for cell adhesion between spermatids and Sertoli cells, while functional FND3A deletion in mice led to sterility [ 49 ].…”

Section: Discussionmentioning

confidence: 99%

Transient Receptor Potential Vanilloid 6 (TRPV6) Proteins Control the Extracellular Matrix Structure of the Placental Labyrinth

Winter

Weißgerber

Klein

et al. 2020

IJMS

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Calcium-selective transient receptor potential Vanilloid 6 (TRPV6) channels are expressed in fetal labyrinth trophoblasts as part of the feto–maternal barrier, necessary for sufficient calcium supply, embryo growth, and bone development during pregnancy. Recently, we have shown a less- compact labyrinth morphology of Trpv6-deficient placentae, and reduced Ca2+ uptake of primary trophoblasts upon functional deletion of TRPV6. Trpv6-/- trophoblasts show a distinct calcium-dependent phenotype. Deep proteomic profiling of wt and Trpv6-/- primary trophoblasts using label-free quantitative mass spectrometry leads to the identification of 2778 proteins. Among those, a group of proteases, including high-temperature requirement A serine peptidase 1 (HTRA1) and different granzymes are more abundantly expressed in Trpv6-/- trophoblast lysates, whereas the extracellular matrix protein fibronectin and the fibronectin-domain-containing protein 3A (FND3A) were markedly reduced. Trpv6-/-placenta lysates contain a higher intrinsic proteolytic activity increasing fibronectin degradation. Our results show that the extracellular matrix formation of the placental labyrinth depends on TRPV6; its deletion in trophoblasts correlates with the increased expression of proteases controlling the extracellular matrix in the labyrinth during pregnancy.

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ECM alterations in Fndc3a (Fibronectin Domain Containing Protein 3A) deficient zebrafish cause temporal fin development and regeneration defects

Cited by 11 publications

References 66 publications

UBA2 variants underlie a recognizable syndrome with variable aplasia cutis congenita and ectrodactyly

UBA2 variants underlie a recognizable syndrome with variable aplasia cutis congenita and ectrodactyly

Genome-wide transcriptome analysis reveals equine embryonic stem cell-derived tenocytes resemble fetal, not adult tenocytes

Transient Receptor Potential Vanilloid 6 (TRPV6) Proteins Control the Extracellular Matrix Structure of the Placental Labyrinth

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