Karen Easley scite author profile

Human embryonic stem cells injected into scid mice produce nodules containing differentiated somatic tissues. From the trypsinized cells of such a nodule, we have recovered keratinocytes that can be grown in cell culture. The method of recovery is sensitive enough to detect small numbers of keratinocytes formed in the nodule, but for purposes of analysis, it is preferable to study the development of the entire keratinocyte lineage in culture. The principle of our analysis is the successive appearance of markers, including transcription factors with considerable specificity for the keratinocyte (p63 and basonuclin) and differentiation markers characteristic of its final state (keratin 14 and involucrin). We have determined the order of marker succession during the time-and migration-dependent development of keratinocytes from single embryoid bodies in cell culture. Of the markers we have examined, p63 was the earliest to appear in the keratinocyte lineage. The successive accumulation of later markers provides increasing certainty of emergence of the definitive keratinocyte.

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Targeted Ablation of the Murine Involucrin Gene

Djian

Easley

Green

2000

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Involucrin is synthesized in abundance during terminal differentiation of keratinocytes. Involucrin is a substrate for transglutaminase and one of the precursors of the cross-linked envelopes present in the corneocytes of the epidermis and other stratified squamous epithelia. These envelopes make an important contribution to the physical resistance of the epidermis. We have generated mice lacking involucrin from embryonic stem cells whose involucrin gene had been ablated by homologous recombination. These mice developed normally, possessed apparently normal epidermis and hair follicles, and made cornified envelopes that could not be distinguished from those of wild-type mice. No compensatory increase of mRNA for other envelope precursors was observed.

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Epithelial origin of cutaneous anchoring fibrils.

et al. 1990

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Abstract. Anchoring fibrils are essential structural elements of the dermoepidermal junction and are crucial to its functional integrity. They are composed largely of type VII collagen, but their cellular origin has not yet been confirmed. In this study, we demonstrate that the anchoring fibrils are primarily a product of epidermal keratinocytes.Human keratinocyte sheets were transplanted to a nondermal connective tissue graft bed in athymic mice. De novo anchoring fibril formation was studied ultrastructurally by immunogold techniques using an antiserum specific for human type VII procollagen. At 2 d after grafting, type VII procoUagen/collagen was localized both intracellularly within basal keratinocytes and extracellularly beneath the discontinuous basal lamina. Within 6 d, a subconfluent basal lamina had developed, and newly formed anchoring fibrils and anchoring plaques subjacent to the xenografts were labeled. Throughout the observation period of the experiment, the maturity, population density, and architectural complexity of anchoring fibrils beneath the human epidermal graft continuously increased. Identical findings were obtained using xenografts cultivated from cloned human keratinocytes, eliminating the possibility of contributions to anchoring fibril regeneration from residual human fibroblasts. Immunolabeling was not observed at the mouse dermoepidermal junction at any time.These results demonstrate that the type VII collagen of human cutaneous anchoring fibrils and plaques is secreted by keratinocytes and can traverse the epidermal basal lamina and that the fibril formation can occur in the absence of cells of human dermal origin.

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Immortalized keratinocyte lines derived from human embryonic stem cells

Iuchi

Dabelsteen

Easley

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

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Cells of the human embryonic stem (hES) cell line H9, when cultured in the form of embryoid bodies, give rise to cells with markers of the keratinocyte of stratified squamous epithelia. Keratinocytes also form in nodules produced in scid mice by injected H9 cells; the hES-derived keratinocytes could be recovered in culture, where their colonies underwent a peculiar form of fragmentation. Whether formed from embryoid bodies or in nodules, hES-derived keratinocytes differed from postnatal keratinocytes in their much lower proliferative potential in culture; isolated single keratinocytes could not be expanded into mass cultures. Although their growth was not improved by transduction with the hTERT gene, these keratinocytes were immortalized by transduction with the E6E7 genes of HPV16. Clonally derived lines isolated from E6E7-transduced keratinocytes continued to express markers of the keratinocyte lineage, but the frequency with which they terminally differentiated was reduced compared with keratinocytes cultured from postnatal human epidermis. If other hESderived somatic cell types also prove to be restricted in growth potential, not identical to the corresponding postnatal cell types, and to require immortalization for clonal isolation and expansion, these properties will have to be considered in planning their therapeutic use.hES-derived keratinocytes ͉ HPV16 E6E7 ͉ immortalization

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Alternative subcellular locations of keratinocyte basonuclin

Iuchi

Easley

Matsuzaki

et al. 2000

Experimental Dermatology

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Basonuclin is a zinc finger protein present in the basal cell layer of the epidermis and in hair follicles. Human basal epidermal cells are often heterogeneous with respect to a nuclear or cytoplasmic location of basonuclin and the protein may be concentrated in either compartment. In mouse and rat epidermis, although clusters of basonuclin may be seen in some basal cell nuclei, the protein is mainly concentrated in the cytoplasm. When epidermis whose basal cells contain predominantly cytoplasmic basonuclin is disaggregated and the cells are cultivated in the presence of supporting 3T3 cells, the basonuclin of the growing keratinocyte colonies is strongly concentrated in the cell nuclei. Transfer of the cells to culture medium without supporting 3T3 cells results in a predominantly cytoplasmic concentration of the basonuclin. This translocation is reversible, since addition of supporting 3T3 cells restores most basonuclin to the nucleus. The nuclear location is associated with more rapid cell growth. We conclude that different states of the keratinocyte require greater or less activity of basonuclin, and the subcellular location of the protein is probably related to the magnitude of its action on the cells.

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Karen Easley

Marker succession during the development of keratinocytes from cultured human embryonic stem cells

Targeted Ablation of the Murine Involucrin Gene

Epithelial origin of cutaneous anchoring fibrils.

Immortalized keratinocyte lines derived from human embryonic stem cells

Alternative subcellular locations of keratinocyte basonuclin

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