Irma B. Gimenez-Conti

Cutting Edge: Thymocyte-Independent and Thymocyte-Dependent Phases of Epithelial Patterning in the Fetal Thymus

Thymic epithelial cells (TECs) in adult mice have been classified into distinct subsets based on keratin expression profiles. To explore the emergence of TEC subsets during ontogeny, we analyzed keratin 8 and keratin 5 expression at several stages of fetal development in normal C57BL/6J mice. In addition, thymic epithelial development and compartmentalization were explored in recombination-activating gene 2/common cytokine receptor γ-chain-deficient and Ikaros-null mice that sustain early and profound blocks in thymocyte differentiation. The results demonstrate that initial patterning of the thymic epithelial compartment as defined by differential keratin expression does not depend on inductive signals from hematopoietic cells. However, thymocyte-derived signals are required during late fetal stages for continued development and maintenance of TEC subsets in the neonate and adult.

Overexpression of insulin-like growth factor-1 induces hyperplasia, dermal abnormalities, and spontaneous tumor formation in transgenic mice

Transgenic animals were developed to assess the role of insulin-like growth factor 1 (IGF-1) in skin growth, differentiation and organization, as well as its importance in tumor formation. Expression of a human IGF-1 cDNA was targeted to the interfollicular epidermis of transgenic mice using a human keratin 1 promoter construct (HK1). Transgenic animals (HK1.IGF-1 mice) could be identified at birth by early ear unfolding and excessive ear and skin growth compared to non-transgenic littermates. Further examination of the skin from these mice showed epidermal hyperplasia and hyperkeratosis, marked thickening of the dermis and hypodermis, and early hair follicle generation in newborns. The severity of this phenotype correlated with transgene expression both of which subsided with age. Adult HK1.IGF-1 mice developed spontaneous tumors following treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA) alone and exhibited an exaggerated epidermal proliferative response following treatment with the tumor promoter compared to non transgenic littermates. Additionally, HK1.IGF-1 transgenic mice developed papillomas faster and in markedly greater numbers compared to non-transgenic littermates in standard initiation-promotion experiments. The data presented suggest an important role for IGF-1 in the process of multistage carcinogenesis in mouse skin.

E2F1 Has Both Oncogenic and Tumor-Suppressive Properties in a Transgenic Model

ABSTRACT Using a transgenic mouse model expressing the E2F1 gene under the control of a keratin 5 (K5) promoter, we previously demonstrated that increased E2F1 activity can promote tumorigenesis by cooperating with either a v-Ha-ras transgene to induce benign skin papillomas or p53 deficiency to induce spontaneous skin carcinomas. We now report that as K5 E2F1 transgenic mice age, they are predisposed to develop spontaneous tumors in a variety of K5-expressing tissues, including the skin, vagina, forestomach, and odontogenic epithelium. On the other hand, K5 E2F1 transgenic mice are found to be resistant to skin tumor development following a two-stage carcinogenesis protocol. Additional experiments suggest that this tumor-suppressive effect of E2F1 occurs at the promotion stage and may involve the induction of apoptosis. These findings demonstrate that increased E2F1 activity can either promote or inhibit tumorigenesis, dependent upon the experimental context.

Alterations of p53, cyclin D1, rb, and H‐ras in human oral carcinomas related to tobacco use

Epidemiologic studies have indicated that environmental and personal habits, particularly tobacco use and alcohol abuse, are major etiologic factors in the induction and progression of head and neck squamous cell carcinomas (HNSCC). Molecular studies have focused on HNSCC related to smoking but not those associated with smokeless tobacco.

Activators of peroxisome proliferator–activated receptor-α partially inhibit mouse skin tumor promotion

Several recent reports have suggested that peroxisome proliferator–activated receptors (PPARs) may be involved in the development of neoplasias in different tissue types. The present study was undertaken to determine whether PPARs play a role in skin physiology and tumorigenesis. In an initiation‐promotion study, SENCAR mice treated topically with the PPARα ligands conjugated linoleic acid and 4‐chloro‐6‐(2,3‐xylidino)‐2‐pyrimidinylthioacetic acid (Wy‐14643) exhibited an approximately 30% lower skin tumor yield compared with mice treated with vehicle. The PPARγ and PPARδ activators troglitazone and bezafibrate, respectively, exerted little, if any, inhibitory activity. PPARα was detected in normal and hyperplastic skin and in papillomas and carcinomas by immunohistochemistry. In addition, PPARα, PPARδ/PPARβ, and PPARγ protein levels were analyzed by immunoblotting in normal epidermis and papillomas. Surprisingly, the levels of all three isoforms were increased significantly in tumors as opposed to normal epidermis. In primary keratinocyte cultures, protein levels of PPARα and, to a lesser extent, PPARγ were markedly increased when the cells were induced to differentiate with high‐calcium (0.12 mM) conditions. In addition, we observed that Wy‐14643 enhanced transcriptional activity of a peroxisome proliferator–response element–driven promoter in a mouse keratinocyte cell line. These results demonstrate that keratinocytes express functional PPARα, that PPARα may play a role in differentiation, and that ligands for PPARα are moderately protective against skin tumor promotion. We conclude that selective PPARα ligands may exert their protective role against skin tumor promotion by ligand activation of PPARα. Mol. Carcinog. 29:134–142, 2000.

Altered skin development and impaired proliferative and inflammatory responses in transgenic mice overexpressing the glucocorticoid receptor

Glucocorticoids (GCs) are potent inhibitors of epidermal proliferation and effective anti‐inflammatory compounds, which make them the drug of choice for a wide range of inflammatory and hyperproliferative skin disorders. GC action is mediated via the glucocorticoid receptor (GR). To study the role of GR in skin development and the molecular mechanisms underlying its action, we generated transgenic mice overexpressing GR in epidermis and other stratified epithelia, under the control of the keratin K5 promoter. Newborn mice show altered skin development, manifested as variable‐sized skin lesions that range from epidermal hypoplasia and underdeveloped dysplastic hair follicles to a complete absence of this tissue. In the most affected individuals, skin was absent at the cranial and umbilical regions, and the vibrissae and eyebrows appear scarce, short, and curly. In addition, as a consequence of transgene expression in other ectodermally derived epithelia, K5‐GR mice exhibited further abnormalities that strikingly resemble the clinical findings in patients with ectodermal dysplasia, which includes aplasia cutis congenita. In adult transgenic skin, topical application of the tumor promoter TPA did not elicit hyperplasia or transcriptional induction of several proinflammatory cytokines. This anti‐inflammatory role of GR was due at least in part to interference with NF‐κB, leading to a strong reduction in the κB‐binding activity without altering the transcriptional levels of the inhibitor IκBα.

Ultraviolet A does not induce melanomas in a Xiphophorus hybrid fish model

We examined the wavelength dependence of ultraviolet (UV) ra-diation (UVR)-induced melanoma in a Xiphophorus backcross hybrid model previously reported to be susceptible to melanoma induction by ultraviolet A (UVA) and visible light. Whereas ultraviolet B (UVB) irradiation of neonates yielded high frequencies of melanomas in pigmented fish, UVA irradiation resulted in melanoma frequencies that were not significantly different from unirradiated fish. Spontaneous and UV-induced melanoma frequencies correlated with the degree of pigmentation as expected from previous studies, and the histopathology phenotypes of the melanomas were not found in significantly different proportions in UV-treated and -untreated tumor-bearing fish. Our results support the conclusion that a brief early-life exposure to UVB radiation causes melanoma formation in this animal model. These data are consistent with an essential role for direct DNA damage, including cyclobutane dimers and (6-4) photoproducts, in the etiology of melanoma.

Impaired Hair Follicle Morphogenesis and Cycling with Abnormal Epidermal Differentiation in nackt Mice, a Cathepsin L-Deficient Mutation

We previously described an autosomal-recessive mutation named nackt (nkt) exhibiting partial alopecia associated with CD4(+) T-cell deficiency. Also, we recently reported that nkt (now Ctsl(nkt)) comprises a deletion in the cathepsin L (Ctsl) gene. Another recent study reported that Ctsl knockout mice have CD4(+) T-cell deficiency and periodic shedding of hair, which recapitulate the nkt mutation and the old furless (fs) mutation. The current study focuses on the dermatological aspects of the nkt mutation. Careful histological analysis of skin development of homozygous nkt mice revealed a delayed hair follicle morphogenesis and late onset of the first catagen stage. The skin of Ctsl(nkt)/Ctsl(nkt) mice showed mild epidermal hyperplasia and hyperkeratosis, severe hyperplasia of the sebaceous glands, and structural alterations of hair follicles. Epidermal differentiation seems to be affected in nkt skin, with overexpression of involucrin and profilaggrin/filaggrin along with focal areas of keratin 6 expression in the interfollicular epidermis. Severe epidermal hyperplasia, acanthosis, orthokeratosis, and hyperkeratosis were only observed in mice maintained in nonpathogen-free environments. The analysis of Rag2-/- Ctsl(nkt)/Ctsl(nkt) double-mutant mice indicates that the skin defect remains under the absence of T and B cells. This animal model provides in vivo evidence that cysteine protease cathepsin L plays a critical role in hair follicle morphogenesis and cycling, as well as epidermal differentiation.

p53, Rb, and cyclin D1 expression in human oral verrucous carcinomas.

The verrucous carcinoma (VC), a tumor with low grade malignancy, appears to be associated with tobacco and human papillomavirus. The pathobiology of these tumors has not been extensively studied, and molecular genetic alterations have not been reported. In this study we investigated by immunohistochemistry the expression of p53, Rb, and cyclin D1 in a series of well‐defined oral VC. Changes in the expression of these genes have been commonly reported in a variety of human tumors.

Severe follicular hyperplasia and spontaneous papilloma formation in transgenic mice expressing the neu oncogene under the control of the bovine keratin 5 promoter

Transgenic mice were developed to explore the role of the erbB2 during epithelial homeostasis and tumorigenesis, through targeted expression of the neu oncogene (neu*). Expression of a neu* cDNA was targeted to the basal layer of skin epidermis as well as other epithelial tissues of transgenic mice via the bovine keratin 5 promoter. Two transgenic founders were obtained that were morphologically distinguishable from non‐transgenic littermates by their visibly thickened skin and patchy hair growth by day 3 after birth. The presence of the transgene was confirmed by polymerase chain reaction analysis of tail DNA and immunofluorescence analysis of neu* protein in skin sections. Histological evaluation revealed significant hyperplasia of the follicular and interfollicular epidermis, the abnormal presence of horny material in the dermis and hypodermis, and a dramatic increase in epidermal proliferation. Many areas of the dermis involving this abnormal epithelial proliferation exhibited a squamous cell carcinoma–like appearance. In addition, there was unusual proliferation of the sebaceous glands. One founder died at day 14 and the other at day 20. The latter founder had two papillomas at the time of death. Additional phenotypic changes resulting from the expression of neu* in other tissues included hyperkeratosis in the forestomach and esophagus. In addition, there was a lack of distinction of the cortical‐medullary boundaries and an increased rate of cell death in lymphocytes in the thymus. The phenotypic changes in these other tissues correlated with transgene expression. The data suggest that erbB2 signaling has an important role in epidermal proliferation. In addition, the data provide strong support for a role for erbB2 signaling during epidermal carcinogenesis in mouse skin. Mol. Carcinog. 21:2–12, 1998.