A very important part of our laboratory effort is to identify unique cell surface markers of KSC in order to distinguish these stem cells from other keratinocytes. Currently, unique cell surface markers have not been identified for either keratinocyte stem cells or other epithelial tissues. The ability to identify and manipulate keratinocyte stem cells is important for two reasons. First, it will allow us to gene target these cells, which is important for long-term gene expression in a renewing tissue. Second, the epidermis and other epithelial are sources for a majority of human cancer and the ability to selectively target therapies to """"""""cancer stem cells"""""""" of these tissues may be critical to effectively treat epithelial-derived cancer. Keratinocyte stem cells are best identified by their ability to retain a BrdU label, and we have successfully FACS sorted pure populations of these """"""""label retaining"""""""" cells or LRC. (Unfortunately, the detection of BrdU requires that these cells be fixed and permeablized, making them unsuitable for biological studies requiring living cells.) Good progress has been made in identifying membrane proteins in our ongoing collaboration with the Biomedical Proteomics Program at Frederic and we are now working to quantitatively assess and compare the plasma membrane proteins prepared from LRC keratinocytes to control keratinocyte populations with high throughput mass spectrometry (MS) analysis in order to identify unique cell surface markers. Recently, a population of very primitive hematopoietic stem cells (side population or SP cells) have been identified because of unique fluorescent emission characteristics due to their ability to exclude HO33342 nuclear dye. We have recently described a SP population of keratinocytes and are currently trying to determine if these SP keratinocytes function as stem cells in vivo and possess long-term repopulating ability, using our in vivo stem cell assay. We have been using microarray analysis of gene expression in these and control keratinocytes in order to try to understand their function in the skin. Patterns of gene expression in SP keratinocytes can be also be assessed on a protein level, and these SP cells can also be analyzed by high-throughput mass spectrometry for the presence of unique cell surface markers. The experimental approaches we have developed to identify cell surface markers of keratinocyte stem cells can also be applied to cancer stem cells, and the in vivo models we have developed to assess keratinocyte stem cell behavior will be critical in determining if cancer stem cells are present in skin cancers (squamous cell carcinoma and basal cell carcinoma) and in other epithelial cancers. The identity and characterization of cancer stem cells may be required before effective therapies can be developed to treat epithelial cancer.

Agency
National Institute of Health (NIH)
Institute
Division of Basic Sciences - NCI (NCI)
Type
Intramural Research (Z01)
Project #
1Z01BC010542-01
Application #
6952162
Study Section
(DB)
Project Start
Project End
Budget Start
Budget End
Support Year
1
Fiscal Year
2003
Total Cost
Indirect Cost
Name
Basic Sciences
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Terunuma, Atsushi; Cross, Justin W; Dyke, Michelle et al. (2008) Behavior of human foreskin keratinocytes expressing a hair follicle stem cell marker CD200. J Invest Dermatol 128:1332-4
Terunuma, Atsushi; Kapoor, Veena; Yee, Carole et al. (2007) Stem cell activity of human side population and alpha6 integrin-bright keratinocytes defined by a quantitative in vivo assay. Stem Cells 25:664-9
Ohyama, Manabu; Vogel, Jonathan C; Amagai, Masayuki (2007) Gene ontology analysis of human hair follicle bulge molecular signature. J Dermatol Sci 45:147-50
Fan, Qingyuan; Yee, Carole Lee; Ohyama, Manabu et al. (2006) Bone marrow-derived keratinocytes are not detected in normal skin and only rarely detected in wounded skin in two different murine models. Exp Hematol 34:672-9
Ohyama, Manabu; Terunuma, Atsushi; Tock, Christine L et al. (2006) Characterization and isolation of stem cell-enriched human hair follicle bulge cells. J Clin Invest 116:249-60
Blonder, Josip; Terunuma, Atsushi; Conrads, Thomas P et al. (2004) A proteomic characterization of the plasma membrane of human epidermis by high-throughput mass spectrometry. J Invest Dermatol 123:691-9
Blonder, Josip; Conrads, Thomas P; Yu, Li-Rong et al. (2004) A detergent- and cyanogen bromide-free method for integral membrane proteomics: application to Halobacterium purple membranes and the human epidermal membrane proteome. Proteomics 4:31-45
Terunuma, A; Ye, J; Emmert, S et al. (2004) Ultraviolet light selection assay to optimize oligonucleotide correction of mutations in endogenous xeroderma pigmentosum genes. Gene Ther 11:1729-34
Terunuma, Atsushi; Shaya, Melissa B; Udey, Mark C et al. (2004) An in vivo competitive repopulation assay system to evaluate human keratinocyte stem cells. J Invest Dermatol 123:993-5
Terunuma, Atsushi; Jackson, Kimberly L; Kapoor, Veena et al. (2003) Side population keratinocytes resembling bone marrow side population stem cells are distinct from label-retaining keratinocyte stem cells. J Invest Dermatol 121:1095-103

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