Identification of a novel developmental mechanism in the generation of mesothelia

Winters, Nichelle I.; Thomason, Rebecca T.; Bader, David M.

doi:10.1242/dev.082396

Cited by 32 publications

(38 citation statements)

References 43 publications

(54 reference statements)

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“…To our surprise, we instead determined that unlike the heart, the avian intestinal splanchnic mesoderm housed broadly distributed mesothelial progenitors that differentiated in situ rather than from an external migratory population. This provided the first experimental evidence of an alternative model of mesothelial formation (19). …”

Section: Introductionmentioning

confidence: 81%

“…However, it is unknown whether the mechanisms of cardiac mesotheliogenesis, in particular the requirement to recruit exogenous mesothelial cell progenitors to the developing organ, are applied broadly throughout vertebrate organogenesis. We recently reported the intestine employed an alternative mechanism of mesothelial formation – generation of mesothelium from a broadly-distributed intrinsic population of progenitors (19). Still, the question remains as to whether a major conserved mechanism in this process is observed.…”

Section: Discussionmentioning

confidence: 99%

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Resident progenitors, not exogenous migratory cells, generate the majority of visceral mesothelium in organogenesis

Winters

Williams

Bader

2014

Developmental Biology

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Historically, analyses of mesothelial differentiation have focused on the heart where a highly migratory population of progenitors originating from a localized “extrinsic” source moves to and over the developing organ. This model long stood alone as the paradigm for generation of this cell type. Here, using chick/quail chimeric grafting and subsequent identification of mesothelial cell populations, we demonstrate that a different mechanism for the generation of mesothelia exists in vertebrate organogenesis. In this newly discovered model, mesothelial progenitors are intrinsic to organs of the developing digestive and respiratory systems. Additionally, we demonstrate that the early heart stands alone in its ability to recruit an entirely exogenous mesothelial cell layer during development. Thus, the newly identified “organ intrinsic” model of mesotheliogenesis appears to predominate while the long-studied cardiac model of mesothelial development may be the outlier.

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Section: Introductionmentioning

confidence: 81%

Section: Discussionmentioning

confidence: 99%

Resident progenitors, not exogenous migratory cells, generate the majority of visceral mesothelium in organogenesis

Winters

Williams

Bader

2014

Developmental Biology

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“…The CE Generates the Mesenchyme of the DM and Subaortic Region by Epithelial-to-Mesenchymal Transition The appearance of mesenchymal cells during formation of the DM, together with observations of other groups (Gros and Tabin, 2014;Richard et al, 2013;Winters et al, 2012;Winters et al, 2014), suggested that epithelial-to-mesenchymal transition (EMT) of the CE may be important for formation of the DM and ventral mesenchyme. To explore this possibility, we performed fate mapping by electroporating a constitutive GFP-expressing plasmid into the CE on one side of the embryo ( Figure 1K).…”

Section: Formation Of the Dorsal Mesentery And Ventral Body Structuresmentioning

confidence: 98%

Establishment of the Visceral Embryonic Midline Is a Dynamic Process that Requires Bilaterally Symmetric BMP Signaling

et al. 2016

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The vertebrate body plan contains both dorsal and ventral midline structures. While dorsal midline structures have been extensively studied, formation of ventral midline structures, and how they become aligned with the dorsal midline, is a fundamental aspect of vertebrate development that is poorly understood. This study uses the chick dorsal mesentery (DM) as a model for investigating the formation of ventral midline structures. We document formation of the DM by epithelial-to-mesenchymal transition (EMT) and medial ingression of the lateral plate coelomic lining and show that DM positioning is a fundamentally dynamic process regulated by relative levels of bone morphogenetic protein (BMP) signaling in the two sides of the ingressing lateral plate. Disruption of this process causes misalignment of the DM and disturbances during initial stages of lung morphogenesis. Since the dorsal midline is a source of BMP antagonists, these results suggest a mechanism for aligning the dorsal and ventral embryonic midlines.

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“…During development, mesothelium lining the heart, liver, lungs and gut differentiate into vascular smooth muscle cells, interstitial fibroblasts, hepatic stellate cells, endothelial cells and adipocytes323334353637. More recently, adult mesothelial cells have also been shown to undergo MMT and differentiate into vascular smooth muscle cells, adipocytes and osteoblasts43839 and are likely to play important roles in fibrogenesis40.…”

Section: Discussionmentioning

confidence: 99%

A Subset of Malignant Mesothelioma Tumors Retain Osteogenic Potential

Lansley

Pedersen

Robinson

et al. 2016

Sci Rep

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Malignant mesothelioma (MM) is an aggressive serosal tumor associated with asbestos exposure. We previously demonstrated that mesothelial cells differentiate into cells of different mesenchymal lineages and hypothesize that osseous tissue observed in a subset of MM patients is due to local differentiation of MM cells. In this study, the capacity of human and mouse MM cells to differentiate into osteoblast-like cells was determined in vitro using a functional model of bone nodule formation and in vivo using an established model of MM. Human and murine MM cell lines cultured in osteogenic medium expressed alkaline phosphatase and formed mineralized bone-like nodules. Several human and mouse MM cell lines also expressed a number of osteoblast phenotype markers, including runt-related transcription factor 2 (RUNX2), osteopontin, osteonectin and bone sialoprotein mRNA and protein. Histological analysis of murine MM tumors identified areas of ossification within the tumor, similar to those observed in human MM biopsies. These data demonstrate the ability of MM to differentiate into another mesenchymal cell type and suggest that MM cells may contribute to the formation of the heterologous elements observed in MM tumors.

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Identification of a novel developmental mechanism in the generation of mesothelia

Cited by 32 publications

References 43 publications

Resident progenitors, not exogenous migratory cells, generate the majority of visceral mesothelium in organogenesis

Resident progenitors, not exogenous migratory cells, generate the majority of visceral mesothelium in organogenesis

Establishment of the Visceral Embryonic Midline Is a Dynamic Process that Requires Bilaterally Symmetric BMP Signaling

A Subset of Malignant Mesothelioma Tumors Retain Osteogenic Potential

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