Regulation of Cell Polarity and Tissue Architecture in Epidermal Aging and Cancer

Both oriented cell divisions and cell rearrangements are critical for proper embryogenesis and organogenesis. However, little is known about how these two cellular events are integrated. Here we examine the linkage between these processes in chick limb cartilage. By combining retroviral-based multicolor clonal analysis with live imaging, the results show that single chondrocyte precursors can generate both single-column and multi-column clones through oriented division followed by cell rearrangements. Focusing on single column formation, we show that this stereotypical tissue architecture is established by a pivot-like process between sister cells. After mediolateral cell division, N-cadherin is enriched in the post-cleavage furrow; then one cell pivots around the other, resulting in stacking into a column. Perturbation analyses demonstrate that planar cell polarity signaling enables cells to pivot in the direction of limb elongation via this N-cadherin-mediated coupling. Our work provides new insights into the mechanisms generating appropriate tissue architecture of limb skeleton.

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Cancer-associated fibroblasts suppress SOX2-induced dysplasia in a lung squamous cancer coculture

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1803718115 ◽

2018 ◽

Vol 115 (50) ◽

pp. E11671-E11680 ◽

Cited By ~ 16

Author(s):

Shuang Chen ◽

Andreas Giannakou ◽

Sarah Wyman ◽

Janet Gruzas ◽

Jonathon Golas ◽

...

Keyword(s):

Epithelial Cells ◽

Cell Polarity ◽

Squamous Carcinoma ◽

Phenotypic Switching ◽

Cancer Associated Fibroblasts ◽

Disease Phenotype ◽

Tissue Architecture ◽

Squamous Cancer ◽

Lung Squamous Carcinoma

Tumorigenesis depends on intricate interactions between genetically altered tumor cells and their surrounding microenvironment. While oncogenic drivers in lung squamous carcinoma (LUSC) have been described, the role of stroma in modulating tissue architecture, particularly cell polarity, remains unclear. Here, we report the establishment of a 3D coculture system of LUSC epithelial cells with cancer-associated fibroblasts (CAFs) and extracellular matrix that together capture key components of the tumor microenvironment (TME). Single LUSC epithelial cells develop into acinar-like structures with 0.02% efficiency, and addition of CAFs provides proper tumor−stromal interactions within an appropriate 3D architectural context. Using this model, we recapitulate key pathological changes during tumorigenesis, from hyperplasia to dysplasia and eventually invasion, in malignant LUSC spheroids that undergo phenotypic switching in response to cell intrinsic and extrinsic changes. Overexpression of SOX2 is sufficient to mediate the transition from hyperplasia to dysplasia in LUSC spheroids, while the presence of CAFs makes them invasive. Unexpectedly, CAFs suppress the activity of high SOX2 levels, restore hyperplasia, and enhance the formation of acinar-like structures. Taken together, these observations suggest that stromal factors can override cell intrinsic oncogenic changes in determining the disease phenotype, thus providing fundamental evidence for the existence of dynamic reciprocity between the nucleus and the TME of LUSC.

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The Scribble–Dlg–Lgl polarity module in development and cancer: from flies to man

Essays in Biochemistry ◽

10.1042/bse0530141 ◽

2012 ◽

Vol 53 ◽

pp. 141-168 ◽

Cited By ~ 89

Author(s):

Imogen Elsum ◽

Laura Yates ◽

Patrick O. Humbert ◽

Helena E. Richardson

Keyword(s):

Cell Polarity ◽

Cancer Progression ◽

Basal Cell ◽

Cell Signalling ◽

Fruit Fly ◽

Strongly Correlated ◽

Tissue Architecture ◽

Discs Large ◽

Lethal Giant Larvae

The Scribble, Par and Crumbs modules were originally identified in the vinegar (fruit) fly, Drosophila melanogaster, as being critical regulators of apico–basal cell polarity. In the present chapter we focus on the Scribble polarity module, composed of Scribble, discs large and lethal giant larvae. Since the discovery of the role of the Scribble polarity module in apico–basal cell polarity, these proteins have also been recognized as having important roles in other forms of polarity, as well as regulation of the actin cytoskeleton, cell signalling and vesicular trafficking. In addition to these physiological roles, an important role for polarity proteins in cancer progression has also been uncovered, with loss of polarity and tissue architecture being strongly correlated with metastatic disease.

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Hyaluronan and RHAMM in Wound Repair and the “Cancerization” of Stromal Tissues

BioMed Research International ◽

10.1155/2014/103923 ◽

2014 ◽

Vol 2014 ◽

pp. 1-18 ◽

Cited By ~ 49

Author(s):

Cornelia Tolg ◽

James B. McCarthy ◽

Arjang Yazdani ◽

Eva A. Turley

Keyword(s):

Extracellular Matrix ◽

Cell Migration ◽

Cell Polarity ◽

Normal Tissue ◽

Wound Repair ◽

Tissue Structure ◽

Tissue Architecture ◽

Ecm Remodeling ◽

Similarities And Differences ◽

Cell Migration And Proliferation

Tumors and wounds share many similarities including loss of tissue architecture, cell polarity and cell differentiation, aberrant extracellular matrix (ECM) remodeling (Ballard et al., 2006) increased inflammation, angiogenesis, and elevated cell migration and proliferation. Whereas these changes are transient in repairing wounds, tumors do not regain tissue architecture but rather their continued progression is fueled in part by loss of normal tissue structure. As a result tumors are often described as wounds that do not heal. The ECM component hyaluronan (HA) and its receptor RHAMM have both been implicated in wound repair and tumor progression. This review highlights the similarities and differences in their roles during these processes and proposes that RHAMM-regulated wound repair functions may contribute to “cancerization” of the tumor microenvironment.

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