Mouse prostate epithelial luminal cells lineage originate in the basal layer where the primitive stem/early progenitor cells reside: implications for identifying prostate cancer stem cells.

Prostate stem cells are thought to be responsible for generation of all prostate epithelial cells and for tissue maintenance. The lineage relationship between basal and luminal cells in the prostate is not well clarified. We developed a mouse model to trace cell fate and a mouse model with a slowly cycling cell label to provide insight into this question. The results obtained indicate that putative mouse prostate stem cells are likely to reside in the basal layer.

CD200-expressing human basal cell carcinoma cells initiate tumor growth.

Smoothened antagonists directly target the genetic basis of human basal cell carcinoma (BCC), the most common of all cancers. These drugs inhibit BCC growth, but they are not curative. Although BCC cells are monomorphic, immunofluorescence microscopy reveals a complex hierarchical pattern of growth with inward differentiation along hair follicle lineages. Most BCC cells express the transcription factor KLF4 and are committed to terminal differentiation. A small CD200(+) CD45(-) BCC subpopulation that represents 1.63 ± 1.11% of all BCC cells resides in small clusters at the tumor periphery. By using reproducible in vivo xenograft growth assays, we determined that tumor initiating cell frequencies approximate one per 1.5 million unsorted BCC cells. The CD200(+) CD45(-) BCC subpopulation recreated BCC tumor growth in vivo with typical histological architecture and expression of sonic hedgehog-regulated genes. Reproducible in vivo BCC growth was achieved with as few as 10,000 CD200(+) CD45(-) cells, representing ~1,500-fold enrichment. CD200(-) CD45(-) BCC cells were unable to form tumors. These findings establish a platform to study the effects of Smoothened antagonists on BCC tumor initiating cell and also suggest that currently available anti-CD200 therapy be considered, either as monotherapy or an adjunct to Smoothened antagonists, in the treatment of inoperable BCC.

A humanized stromal bed is required for engraftment of isolated human primary squamous cell carcinoma cells in immunocompromised mice.

Epithelial cancers are the most common malignancies and the greatest cause of cancer mortality worldwide. The incidence of keratinocyte-derived (non-melanoma) skin cancers is increasing rapidly. Despite access to abundant tumor tissue and ease of observation, acceptance of non-melanoma skin cancers as model carcinomas has been hindered by the lack of a reliable xenograft model. Herein we describe conditions that allow routine xeno-engraftment of primary human squamous cell carcinoma (SCCa) cells. Tumor development required creation of an appropriate stromal bed before xenografting tumor tissue onto the backs of athymic nude mice. We also demonstrate that the stromal bed must be "humanized" if primary human SCCa is to be propagated from cell suspensions. SCCa xenografts recapitulated the histological grade and phenotype of the original tumors with considerable fidelity, even after serial passage, irrespective of the histological grade of the primary human SCCa. This model, which to our knowledge is previously unreported, can be used for drug testing, as well as for studies that are relevant to the biology of primary human SCCa and other epithelial cancers.

Identification and characterization of tumor-initiating cells in human primary cutaneous squamous cell carcinoma.

Primary human squamous cell carcinomas (SCCas) are heterogeneous invasive tumors with proliferating outer layers and inner differentiating cell masses. To determine if tumor-initiating cells (TICs) are present in SCCas, we utilized newly developed reliable in vitro and in vivo xenograft assays that propagate human SCCas, and demonstrated that a small subset of SCCa cells (∼1%) expressing Prominin-1 (CD133) in the outer layers of SCCas were highly enriched for TICs (∼1/400) compared with unsorted SCCa cells (TICs ∼1/10(6)). Xenografts of CD133+ SCCas recreated the original SCCa tumor histology and organizational hierarchy, whereas CD133- cells did not, and only CD133+ cells demonstrated the capacity for self-renewal in serial transplantation studies. We present a model of human SCCas in which tumor projections expand with outer leading edges that contain CD133+ TICs. Successful cancer treatment will likely require that the TICs identified in cancers be targeted therapeutically. The demonstration that TICs are present in SCCas and are enriched in a CD133- expressing subpopulation has not been, to our knowledge, previously reported.

Human bullous pemphigoid antigen 2 transgenic skin elicits specific IgG in wild-type mice.

Bullous pemphigoid antigen 2 (BPAG2) is targeted by autoantibodies in patients with bullous pemphigoid (BP), and absent in patients with one type of epidermolysis bullosa (OMIM #226650). A keratin 14 promoter construct was used to produce transgenic (Tg) mice appropriately expressing human BPAG2 (hBPAG2) in murine epidermal basement membrane (BM). Grafts of Tg skin placed on gender-matched, syngeneic wild type (Wt) or major histocompatibility complex I (MHC I)-/- mice elicited IgG that bound human epidermal BM and BPAG2. Production of such IgG in grafted mice was prompt (detectable within 16+/-2 days), robust (titer > or = 1,280), durable (present > or = 380 days), and correlated with the involution and loss of Tg skin grafts. MHC II-/- mice grafted with Tg skin did not develop anti-hBPAG2 IgG or graft loss indicating that MHC II:CD4+ T cell interactions were crucial for these responses. Tg skin grafts on Wt mice developed neutrophil-rich infiltrates, dermal edema, subepidermal blisters, and deposits of immunoreactants in epidermal BM. This model shows fidelity to alterations seen in patients with BP, has relevance to immune responses that may arise in patients with epidermolysis bullosa following BPAG2 gene replacement, and can be used to identify interventions that may block production of IgG against proteins in epidermal BM.

Stem cell activity of human side population and alpha6 integrin-bright keratinocytes defined by a quantitative in vivo assay.

The isolation and characterization of living human epithelial stem cells is difficult because distinguishing cell surface markers have not been identified with certainty. Side population keratinocytes (SP-KCs) that efflux Hoechst 33342 fluorescent dye, analogous to bone marrow-derived side population (SP) hematopoietic stem cells, have been identified in human skin, but their potential to function as keratinocyte stem cells (KSCs) in vivo is not known. On the other hand, human keratinocyte populations that express elevated levels of beta1 and alpha6 integrins and are distinct from SP-KCs, which express low levels of integrins, may be enriched for KSCs based on reported results of in vitro cell culture assays. When in vitro assays were used to measure total cell output of human SP-KCs and integrin-bright keratinocytes, we could not document their superior long-term proliferative activity versus unfractionated keratinocytes. To further assess the KSC characteristics in SP-KCs and integrin-bright keratinocytes, we used an in vivo competitive repopulation assay in which bioengineered human epidermis containing competing keratinocyte populations with different human major histocompatibility (MHC) class I antigens were grafted onto immunocompromised mice, and the intrinsic MHC class I antigens are used to quantify expansion of competing populations. In these in vivo studies, human SP-KCs showed little competitive expansion in vivo and were not enriched for KSCs. In contrast, keratinocytes expressing elevated levels of alpha6 integrin and low levels of CD71 (alpha6-bright/CD71-dim) expanded over 200-fold during the 33-week in vivo study. These results definitively demonstrate that human alpha6-bright/CD71-dim keratinocytes are enriched with KSCs, whereas SP-KCs are not.

Bone marrow-derived keratinocytes are not detected in normal skin and only rarely detected in wounded skin in two different murine models.

OBJECTIVE: Because the ability of bone marrow-derived cells (BMDCs) to repopulate tissues and the possible mechanisms of repopulation remain controversial, we used two distinct murine models to determine whether BMDCs can repopulate epidermal keratinocytes during either steady-state homeostasis or after tissue injury. METHODS: The accessibility of skin keratinocytes makes it an excellent tissue to assess BMDC repopulation. In the two murine models, BMDCs from either male homologous B6, 129S Rosa26 mice that constitutively express ss-galactosidase or male hemizygote C57 BL/6-Tg(ACTbEGFP)1Osb/J mice expressing enhanced green fluorescent protein were transplanted via tail vein injection into control lethally irradiated (9.5 Gy) congenic female recipients and the percentage of keratinocytes derived from the transplanted BMDCs, both with and without wounding, was carefully determined. RESULTS: Analysis of bone marrow, thymus, spleen, and lymph nodes confirmed complete engraftment of donor BMDCs 6 months post-bone marrow transplantation. However, during steady-state homeostasis, bone marrow-derived keratinocytes could not be detected in the epidermis. In a skin wound-healing model, the epidermis contained only rare bone marrow-derived keratinocytes (< 0.0001%) but did contain scattered bone marrow-derived Langerhans cells. CONCLUSIONS: These results suggest that BMDCs do not significantly contribute to steady-state epidermal homeostasis and are not required or responsible for providing keratinocyte stem cells and keratinocyte repopulation following skin injury.

A proteomic characterization of the plasma membrane of human epidermis by high-throughput mass spectrometry.

Membrane proteins are responsible for many critical cellular functions and identifying cell surface proteins on different keratinocyte populations by proteomic approaches would improve our understanding of their biological function. The ability to characterize membrane proteins, however, has lagged behind that of soluble proteins both in terms of throughput and protein coverage. In this study, a membrane proteomic investigation of keratinocytes using a two-dimensional liquid chromatography (LC) tandem-mass spectrometry (MS/MS) approach that relies on a buffered methanol-based solubilization, and tryptic digestion of purified plasma membrane is described. A highly enriched plasma membrane fraction was prepared from newborn foreskins using sucrose gradient centrifugation, followed by a single-tube solubilization and tryptic digestion of membrane proteins. This digestate was fractionated by strong cation-exchange chromatography and analyzed using microcapillary reversed-phase LC-MS/MS. In a set of 1306 identified proteins, 866 had a gene ontology (GO) annotation for cellular component, and 496 of these annotated proteins (57.3%) were assigned as known integral membrane proteins or membrane-associated proteins. Included in the identification of a large number of aqueous insoluble integral membrane proteins were many known intercellular adhesion proteins and gap junction proteins. Furthermore, 121 proteins from cholesterol-rich plasma membrane domains (caveolar and lipid rafts) were identified.

Anti-epiligrin cicatricial pemphigoid: clinical findings, immunopathogenesis, and significant associations.

We report the clinical and immunopathologic findings in a cohort of 35 patients with anti-epiligrin cicatricial pemphigoid (AECP). These patients have a mucosal predominant subepithelial blistering disease that is clinically indistinguishable from other forms of cicatricial pemphigoid. The mucosal surfaces of the mouth and eye are most commonly involved. The skin is also involved in most patients, but usually this is less severe than mucosal involvement. AECP is characterized by the binding of circulating IgG autoantibodies to the dermal side of 1M NaCl split human skin on indirect immunofluorescence microscopy. These IgG antibasement membrane autoantibodies target laminin 5, a heterotrimeric protein consisting of alpha3, beta3, and gamma2 subunits. IgG autoantibodies predominantly target the G domain within the alpha subunit. The presence of circulating IgG autoantibodies are specific for the diagnosis of AECP and are not seen in patients with other autoimmune blistering diseases or normal volunteers. Furthermore, we expand on data previously reported on the finding of an increased relative risk for solid cancer in patients with AECP, especially in the first year after blister onset. The majority of cancers documented in a cohort of 35 patients assembled over 12 years of study were adenocarcinomas that were at an advanced stage at their time of detection. This circumstance is thought to account for a high incidence of mortality among AECP patients who develop an associated cancer. AECP patients also demonstrate a significant risk for mortality as a consequence of treatment with systemic immunosuppressives. The current longitudinal study suggests that only a minority of AECP patients go into remission.

Absence of donor-derived keratinocyte stem cells in skin tissues cultured from patients after mobilized peripheral blood hematopoietic stem cell transplantation.

OBJECTIVE: Recent studies suggest that primitive bone marrow-derived cells contribute to regeneration of many tissues, including muscle, endothelium, myocardium, neural tissues, liver, and skin. Conversely, primitive cells resident in muscle and other tissues have been reported to reconstitute hematopoiesis. We investigated the contribution of cells with a primitive hematopoietic phenotype to human epidermal skin formation in recipients of allogeneic mobilized peripheral blood hematopoietic stem cell (HSC) transplantation. PATIENTS AND METHODS: Our study population included female patients who had received granulocyte colony-stimulating factor mobilized peripheral blood HSC transplants from male donors for a variety of benign and malignant hematologic disorders at least 6 months before study entry, with a history of skin graft-vs-host disease. Epidermal skin cells (keratinocytes) obtained from punch biopsies of the skin were cultured under conditions specific for growth and expansion of homogenous populations of keratinocytes from keratinocyte stem cells. After multiple passages, DNA was extracted from cultured cells and evaluated by two different polymerase chain reaction (PCR) method for detection of Y chromosome specific sequences. RESULTS: Neither sensitive PCR-based technique revealed the presence of male donor-derived keratinocyte stem cells in keratinocytes cultured from skin biopsies of female allogeneic transplantation recipients. CONCLUSIONS: We could not confirm the contribution of donor mobilized peripheral blood hematopoietic stem cells to keratinocyte stem cell populations after HSC transplantation. These results cannot explain the presence of donor-derived cells with keratinocyte phenotypic markers in tissue sections of HSC transplant recipients.

Anti-p200 pemphigoid: diagnosis and treatment of a case presenting as an inflammatory subepidermal blistering disease.

Anti-p200 pemphigoid is a recently defined subepidermal immunobullous disease. It is characterized by the binding of circulating IgG autoantibodies to the dermal side of 1 M NaCl split skin and by reactivity of these autoantibodies to a unique 200-kd antigen on immunoblot of dermal extract. On immunoelectron microscopic examination, these autoantibodies deposit at the lamina lucida-lamina densa interface. We describe the clinical, histologic, and immunopathologic features in a patient with anti-p200 pemphigoid, as well as his favorable response to treatment with systemic glucocorticosteroids and dapsone.

Comprehensive analysis of gene expression profiles in keratinocytes from patients with generalized atrophic benign epidermolysis bullosa.

Generalized atrophic benign epidermolysis bullosa [GABEB (OMIM no. 226650)] is an inherited subepidermal blistering disease typically caused by null mutations in COL17A1, the gene encoding type XVII collagen. Studies of GABEB keratinocytes homozygous for 4003delTC showed that this 2 bp deletion results in markedly reduced COL17A1 transcripts due to nonsense mediated-mRNA decay. To explore consequences of this null mutation in COL17A1 on the expression of other genes, RNA samples from reference GABEB and normal keratinocytes were profiled in comparative screens of microarrays of known cDNAs (n = 6180) and expressed sequence tags (ESTs) (n = 15 144). All comparative hybridization experiments were performed > or = twice; data were quantitated by densitometry and analyzed using peak quantification statistical comparative analysis (P-SCAN) software to identify differentially expressed genes. Representative genes found to be differentially expressed were verified using real-time reverse transcription-polymerase chain reaction (RT-PCR). These experiments determined that expression of nonsense-mediated mRNA decay trans-acting factor (NMD-F), the regulator of nonsense transcripts (i.e. the human homolog of the yeast Upf1 protein), was upregulated in GABEB keratinocytes. NMD-F was subsequently found to be upregulated in cultured keratinocytes from other GABEB patients homozygous for 4003delTC. These findings indicate that the gene responsible for nonsense-mediated mRNA decay is upregulated in keratinocytes known to eliminate mutant COL17A1 transcripts via this highly conserved mechanism.