Advanced search
Publication Cover
CRC Critical Reviews in Toxicology Volume 9, 1981 - Issue 2
Journal homepage
18
Views
30
CrossRef citations to date
0
Altmetric
Research Article

The Regulation of Epidermal Hyperplastic Growth

Thomas S. Argyris Department of Pathology, Upstate Medical Center, Syracuse, New York
&
Thomas J. Slaga Biology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee
Pages 151-200 | Published online: 26 Sep 2008

References

  • Abercrombie M. Localized formation of new tissue in an adult mammal. Symp. Soc. Exp. Biol. 1957; 11: 235
  • Abercrombie M. Behavior of cells toward one another. Advances in Biology of Skin, W. Montagna, R.E. Billingham. Pergamon Press, Oxford 1964; Vol. 5: 95
  • Al-Barwari S.E., Potten C.S. A cell kinetic model to explain the time of appearance of skin reaction after X-rays or ultraviolet light irradiation. Cell Tissue Kinet. 1979; 12: 281
  • Allen T.D., Potten C.S. Fine-structural identification and organization of the epidermal proliferative unit. J. Cell. Sci. 1974; 15: 291
  • Andreasen E., Borum K. Histology of early reactions following a single application of 9, 10-dimethyl-1,2-benzanthracene to mouse skin in two different stages of hair formation. Acta Pathol. Microbiol. Scand. 1959; 46: 59
  • Arey L.B. Wound healing. Physiol. Rev. 1936; 16: 327
  • Argyris T.S. The relationship between the hair growth cycle and the response of mouse skin to X-irradiation. Am. J. Anat. 1954; 94: 439
  • Argyris T.S. The effect of wounds on adjacent growing or resting hair follicles in mice. AMA Arch. Pathol. 1956; 61: 31
  • Argyris T.S. Hair growth cycle and skin neoplasia. Natl. Cancer Inst., Monogr. 1963; 10: 33
  • Argyris T.S. The growth promoting effects of tumors on tissues. Adv. Biol. Skin 1966; 7: 55
  • Argyris T.S. Growth induced by damage. Adv. Morphog. 1968; 7: 1
  • Argyris T.S. Chalones and the control of normal, regenerative, and neoplastic growth of the skin. Am. Zool. 1972; 12: 137
  • Argyris T.S. Stimulators, enzyme induction and the control of liver growth. Control of Proliferation in Animal Cells, B. Clarkson, R. Baserga. Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 1974; 49
  • Argyris T.S. Unbalanced RNA accumulation in regenerating mouse epidermis following abrasion. J. Invest. Dermatol. 1976; 67: 718
  • Argyris T.S. Kinetics of epidermal production during epidermal regeneration following abrasion in mice. Am. J. Pathol. 1976; 83: 329
  • Argyris T.S. Kinetics of regression of epidermal hyperplasia in the skin of mice following abrasion. Am. J. Pathol. 1977; 88: 575
  • Argyris T.S. Epidermal growth and ribosomal RNA accumulation in regenerating mouse epidermis following abrasion. J. Invest. Dermatol. 1978; 70: 267
  • Argyris T.S. Ribosome accumulation and the regulation of epidermal hyperplastic growth. Life Sci. 1979; 24: 1137
  • Argyris T.S. Epidermal growth following a single application of 12–0-tetradecanoyl-phorbol-13-acetate in mice. Am. J. Pathol. 1980; 98: 639
  • Argyris T.S., Bell E. The physiological activity of the skin and its response to ultrasound. Anat. Rec. 1959; 134: 153
  • Argyris T.S., Chase H.B. Effect of X-irradiation on differentiating hair follicles. Anat. Rec. 1960; 136: 445
  • Argyris T.S., Trimble M.E. On the mechanism of hair growth stimulation in wound healing. Dev. Biol. 1964; 9: 230
  • Argyris T.S., Trimble M.E., Janicki R. Control of induced kidney growth. Compensatory Renal Hypertrophy, W.W. Nowinski, R. Goss. Academic Press, New York 1969; 45
  • Bach H., Goerttler K. Morphologische untersuchungen zur hyperplasiogenen Wirkung des biologisch aktiven Phorbolesters Al. Virchows Arch. B 1971; 8: 196
  • Baird W.M., Sedgwick J.A., Boutwell R.K. Effects of phorbol and four diesters of, phorbol on the incorporation of tritiated precursors into DNA, RNA, and protein in mouse epidermis. Cancer Res. 1971; 31: 1434
  • Balmain A. The synthesis of specific proteins in adult mouse epidermis during phases of proliferation and differentiation induced by the tumor promotor TPA, and in basal and differentiating layers of neonatal mouse epidermis. J. Invest. Dermatol. 1976; 67: 246
  • Balmain A. Synthesis of specific proteins in mouse epidermis after treatment with the tumor promotor TPA. Carcinogenesis, Mechanisms of Tumor Promotion and Co-carcinogenesis, T.J. Slaga, A. Sivak, R.K. Boutwell. Raven Press, New York 1978; Vol. 2: 153
  • Balmain A., Hecker E. On the biochemical mechanism of tumorigenesis in mouse skin. VI. Early effects of growth-stimulating phorbol esters on phosphate transport and phospholipid synthesis in mouse epidermis. Biochim. Biophys. Acta 1974; 362: 457
  • Barnes F.W., Seip W.F., Burch C.C. Proliferation and resistance of epidermis in response to harmful stimuli. Proc. Soc. Exp. Biol. Med. 1968; 129: 584
  • Bell E., Argyris T.S. Response of the skin to focused ultrasound. J. Acoust. Soc. Am. 1957; 29: 239
  • Belman S., Troll W., Garte J. Effect of phorbol myristate acetate on cyclic nucleotide levels in mouse epidermis. Cancer Res. 1978; 38: 2978
  • Berenblum I. A speculative review: the probable nature of promoting action and its significance in the understanding of the mechanism of carcinogenesis. Cancer Res. 1954; 14: 471
  • Bertsch S., Csontos K., Schweizer J., Marks F. Effect of mechanical stimulation on cell proliferation in mouse epidermis and on growth regulation by endogenous factors (chalones). Cell Tissue Kinet. 1976; 9: 445
  • Bertsch S., Marks F. Lack of an effect of tumor-promoting phorbol esters and of epidermal G1 chalone on DNA synthesis in the epidermis of new born mice. Cancer Res. 1974; 34: 3283
  • Billingham R.E., Medawar P.B. Contracture and intussusceptive growth in the healing of extensive wounds in mammalian skin. J. Anat. 1955; 89: 116
  • Billingham R.E., Silvers W.K. Studies on the conservation of epidermal specificities of skin and certain mucosas in adult mammals. J. Exp. Med. 1967; 125: 429
  • Bishop G.H. Regeneration after experimental removal of skin in man. Am. J. Anat. 1945; 76: 153
  • Block P., Selter I., Oehlert W. Autoradiographic studies of the initial cellular response to injury. Exp. Cell Res. 1963; 30: 311
  • Boutwell R.K. The function and mechanism of promoters of carcinogenesis. CRC Crit. Rev. Toxicol. 1974; 2: 419
  • Brown W.R., Habowsky J.E.J. Comparative ultrastructure and cytochemistry of epidermal responses to tape stripping, ethanol and vitamin A acid in hairless mice. J. Invest. Dermatol. 1979; 73: 203
  • Bullough W.S. Age and mitotic activity in the male mouse, Mus musculus L. J. Exp. Biol. 1950; 26: 261
  • Bullough W.S., Laurence E.B. The control of epidermal mitotic activity in the mouse. Proc. R. Soc. London Ser. B 1960; 151: 517
  • Bullough W.S., Laurence E.B. The control of mitotic activity in mouse skin. Exp. Cell Res. 1960; 21: 394
  • Bullough W.S., Stolze J.U.R. A new form of cellular arrangement in guinea pig epidermis. Br. J. Dermatol. 1978; 99: 519
  • Burki K., Bresnick E. Early morphologic alterations in mouse skin after topical application of 3-methylcholanthrene and its metabolites. J. Natl. Cancer Inst. 1975; 55: 171
  • Burki K., Wheeler J.E., Akamatsu Y., Scribner J.E., Candelas G., Bresnick E. Early differential effects of 3-methyl-cholanthrene and its “K-region” epoxide on mouse skin. Possible implication in the two stage mechanism of tumorigenesis. J. Natl. Cancer Inst. 1974; 53: 967
  • Cameron G.R. Pathology of the Cell. Oliver and Boyd, London 1952
  • Chase H.B. Greying of hair. I. Effects produced by single doses of X-rays on mice. J. Morphol. 1949; 84: 57
  • Chase H.B. Growth of the hair. Physiol. Rev. 1954; 34: 113
  • Chopra D.P. Ultraviolet light carcinogenesis in hairless mice: cell kinetics during induction and progression of squamous cell carcinoma as estimated by the double-labeling method. J. Invest. Dermatol. 1976; 66: 242
  • Chopra D.P., Flaxman B.A. Comparative proliferative kinetics of cells from normal human epidermis and benigh epidermal hyperplasia (psoriasis) in vitro. Cell Tissue Kinet. 1974; 7: 69
  • Chopra D.P., Forbes P.D. Analysis of cell kinetics during ultraviolet light-induced epidermal carcinogenesis in hairless mice. Cancer Res. 1974; 34: 454
  • Christophers E. The architecture of stratum corneum after wounding. J. Invest. Dermatol. 1971; 57: 241
  • Christophers E. Correlation between column formation, thickness and rate of new cell production in guinea pig epidermis. Virchows Arch. B 1972; 10: 286
  • Christophers E. Kinetic aspects of epidermal healing. Epidermal Wound Healing, H.I. Maibach, D.T. Rovee. Year Book Medical Publishing, Chicago 1972; 53
  • Christophers E., Braun-Falco O. Epidermale Regeneration am Meerschweinchenohr nach Hornschichtabriss. Arch. Klin. Exp. Dermatol. 1967; 231: 85
  • Christophers E., Braun-Falco O. Mechanisms of parakeratosis. Br. J. Dermatol. 1970; 82: 268
  • Clark-Lewis I., Murray A.W. Tumor promotion and the induction of epidermal ornithine decarboxylase activity in mechanically stimulated mouse skin. Cancer Res. 1978; 38: 494
  • Clausen O.P.F. Regenerative proliferation of mouse epidermal cells following application of a carcinogenic skin irritant (MCA). Virchows Arch. B. 1978; 27: 205
  • Clausen O.P.F., Lindmo T. Regenerative proliferation of mouse epidermal cells following adhesive tape stripping. Micro-flow fluorometry of isolated epidermal basal cells combined with3H-TdR incorporation and a stathmokinetic method (colcemid). Cell Tissue Kinet. 1976; 9: 573
  • Clausen O.P.F., Thorud E., Bjerknes R., Elgjo K. Circadian rhythms in mouse epidermal basal cell proliferation. Cell Tissue Kinet. 1979; 12: 319
  • Cramer W. The early stages of carcinogenesis by 20-methylcholanthrene in the skin of the mouse. I. Experimental technique and macroscopic changes. J. Natl. Cancer Inst. 1942; 2: 369
  • Cramer W. The early stages of carcinogenesis by 20-methylcholanthrene in the skin of the mouse. II. Microscopic tissue changes. J. Natl. Cancer Inst. 1942; 2: 379
  • Croft C.B., Tarin D. Ultrastructural studies of wound healing in mouse skin. I. Epithelial behaviour. J. Anat. 1970; 106: 63
  • Dammert K. A histological and cytological study of different methods of skin tumorigenesis in mice. Acta Pathol. Microbiol. Scand. 1961; 53: 33
  • Denekamp J., Stewart F.A., Douglas B.G. Changes in the proliferation rate of mouse epidermis after irradiation: continuous labeling studies. Cell Tissue Kinet. 1976; 9: 19
  • Devik F. Histological and cytological changes produced by alpha-particles in the skin of mice. Acta Radiol. 1951; 35: 149
  • Devik F. A study of the local roentgen reaction on the skin of mice, with special reference to the vascular effects. Acta Radiol. Suppl. 1955; 119: 1
  • De Young L.M., Argyris T.S., Gordon G.B. Epidermal ribosome accumulation during two-stage skin tumorigenesis. Cancer Res. 1977; 37: 388
  • Elgjo K. Epidermal cell population kinetics after a single application of some hyperplasia-producing substances. Eur. J. Cancer 1968; 3: 519
  • Epstein J.H., Fukuyama K., Epstein W.L. UVL induced stimulation of DNA synthesis in hairless mouse epidermis. J. Invest. Dermatol. 1968; 51: 445
  • Epstein J.H., Fukuyama K., Fye K. Effects of ultraviolet radiation on the mitotic cycle and DNA, RNA, and protein synthesis in mammalian epidermis in vivo. Photochem. Photobiol. 1970; 12: 57
  • Epstein W.L., Sullivan D.J. Epidermal mitotic activity in wounded human skin. Advances in Biology of Skin, W. Montagna, R.E. Billingham. Pergamon Press, Oxford 1964; Vol. 5: 68
  • Finegold M.J. Control of cell multiplication in epidermis. Proc. Soc. Exp. Biol. Med. 1965; 119: 96
  • Fitzgerald M.J.T. Perinatal changes in epidermal innervation in rat and mouse. J. Comp. Neurol. 1966; 126: 37
  • Fitzgerald M.J.T., Folan J.C., O'Brien T.M. The innervation of hyperplastic epidermis in the mouse: a light microscopic study. J. Invest. Dermatol. 1975; 64: 169
  • Fitzgerald M.J.T., Lavelle S.M. Response of murine cutaneous nerves to skin painting with methylcholanthrene. Anat. Rec. 1966; 154: 617
  • Frankfurt O.S., Raitcheva E. Effect of tumor promoters on cell kinetics in mouse epidermis. J. Natl. Cancer Inst. 1972; 49: 131
  • Frei J.V. Comment on epidermal hyperplasia and tumor promotion. J. Natl. Cancer Inst. 1977; 59: 299
  • Frei J.V., Stephens P. The correlation of promotion of tumour growth and of induction of hyperplasia in epidermal two-stage carcinogenesis. Br. J. Cancer 1968; 22: 83
  • Fukuda M., Okamura K., Rohrbach R., Bohm N., Fujita S. Changes in cell population kinetics during epidermal carcinogenesis. Cell Tissue Kinet. 1978; 11: 611
  • Geary J.R. Effect of roentgen rays during various phases of the hair cycle of the albino rat. Am. J. Anat. 1952; 91: 51
  • Gelfant S. A new theory on the mechanism of cell division. Cell Growth and Cell Division, R.J.C. Harris. International Society of Cell Biology, LiegeBelgium 1963; Vol. 2: 229
  • Gelfant S. A new concept of tissue and tumor cell proliferation. Cancer Res. 1977; 37: 3845
  • Giacometti L. The healing of skin wounds in primates. I. The kinetics of cell proliferation. J. Invest. Dermatol. 1967; 48: 133
  • Gillman T., Penn J. Studies on the repair of cutaneous wounds. I. Healing of incised wounds, with special reference to epidermal reactions to sutures, and the pathogenesis of carcinoma in scars. Med. Pro. 1956; 2: 121, Suppl.
  • Gillman T., Penn J. Studies on the repair of incised wounds. II. The healing of wounds involving loss of the superficial portions of the skin. Med. Proc. 1956; 2: 150, Suppl.
  • Glucksmann A. The histogenesis of benzpyrene-induced epidermal tumors in the mouse. Cancer Res. 1945; 5: 385
  • Hegazy M.A.H., Fowler J.F. Cell population kinetics of plucked and unplucked mouse skin. I. Unirradiated skin. Cell Tissue Kinet. 1973; 6: 17
  • Hell E.A., Cruickshank C.N.D. The effect of injury upon the uptake of3H-thymidine by guinea pig epidermis. Exp. Cell Res. 1963; 31: 128
  • Hennings H., Boutwell R.K. Studies on the mechanism of skin tumor promotion. Cancer Res. 1970; 30: 312
  • Hennings H., Elgjo K. Epidermal regeneration after cellophane tape stripping of hairless mouse skin. Cell Tissue Kinet. 1970; 3: 243
  • Houck J.C. Chalones, J.C. Houck. American Elsevier, New York 1976
  • Houck J.C. Fibroblast chalone and a putative circulating anti-chalone. Chalones, J.C. Houck. American Elsevier, New York 1976; 247
  • Hume W.J., Potten C.S. Advances in epithelial kinetics—an oral view. J. Oral Pathol. 1979; 8: 3
  • Iversen O.H. Discussion on cell destruction and population dynamics in experimental skin carcinogenesis in mice. Progr. Exp. Tumor Res. 1964; 4: 169
  • Iversen O.H. Kinetics of epidermal reaction to carcinogens and other skin irritants. Adv. Biol. Skin 1966; 7: 37
  • Iversen O.H., Bhangoo K.S., Hansen K. Control of epidermal cell renewal in the bat web. Virchows Arch. B. 1974; 16: 157
  • Iversen O.H., Evensen A. Experimental skin carcinogenesis in mice. Acta Pathol. Microbiol. Scand., Suppl. 1962; 156: 1
  • Jaffe J. Diurnal mitotic periodicity in regenerating rat liver. Anat. Rec. 1954; 120: 935
  • Klein-Szanto A.J., Major S., Slaga T.J. The induction of dark basal keratinocytes by 12–0-tetradecanoyl-phorbol-13-acetate (TPA) and mezerein as an indicator of tumor-promoting efficiency in mouse epidermis. Carcinogenesis 1980; 1: 399
  • Kobayashi K. Regional differences in mitotic activity due to injury in mouse skin. Cell Tiss. Res. 1976; 175: 319
  • Krieg L., Kuhlmann I., Marks F. Effect of tumor-promoting phorbol esters and of acetic acid on mechanisms controlling DNA synthesis and mitosis (chalones) and on the biosynthesis of histidine-rich protein in mouse epidermis. Cancer Res. 1974; 34: 3135
  • Kurman M., Argyris T.S. The proliferative response of epidermis of hairless mice to full thickness wounds. Am. J. Pathol. 1975; 79: 301
  • Lyne A.G., Short B.F. Biology of the Skin and Hair Growth. American Elsevier, New York 1965
  • Mackenzie I.C. The ordered structure of mammalian epidermis. Epidermal Wound Healing, H.I. Maibach, D.T. Rovee. Year Book Medical Publishing, Chicago 1972; 5
  • Mackenzie I.C. The effect of friction on the keratinizing epithelia of the oral mucosa and skin of rodents. Br. Dent. J. 1973; 134: 231
  • Mackenzie I.C. Theffects of frictional stimulation on mouse ear epidermis. I. Cell proliferation. J. Invest. Dermatol. 1974; 62: 80
  • Mackenzie I.C. The effects of frictional stimulation on mouse ear epidermis. II. Histologic appearance and cell counts. J. Invest. Dermatol. 1974; 63: 194
  • Mackenzie I.C., Ettinger R.L. Differences in the response of rodent oral mucosa and skin to repeated surface trauma. J. Prosthet. Dent. 1975; 34: 666
  • Major I.R. Correlation of initial changes in the mouse epidermal cell population with two stage carcinogenesis—a quantitative study. Br. J. Cancer 1970; 24: 149
  • Marks F. Epidermal growth control mechanisms, hyperplasia and tumor-promotion in the skin. Cancer Res. 1976; 36: 2636
  • Marks F., Bertsch S., Grimm W., Schweizer J. Hyperplastic transformation and tumor promotion in mouse epidermis: possible consequences of disturbances of endogenous mechanisms controlling proliferation and differentiation. Carcinogenesis, Mechanisms of Tumor Promotion and Co-carcinogenesis, T.J. Slaga, A. Sivak, R.K. Boutwell. Raven Press, New York 1978; Vol. 2: 97
  • Marks F., Bertsch S., Schweizer J. Homeostatic regulation of epidermal cell proliferation. Bull. Cancer 1978; 65: 207
  • Matoltsy A.G., Viziam C.B. Further observations on epithelialization of small wounds, an autoradiographic study of incorporation and distribution of3H-thymidine in the epithelium covering skin wounds. J. Invest. Dermatol. 1970; 55: 20
  • McCullough J.L., Schreiber S.H., Ziboh V.A. Cell proliferation kinetics of epidermis in the essential fatty acid deficient rat. J. Invest. Dermatol. 1978; 70: 318
  • McMinn R.M.H. Tissue Repair. Academic Press, New York 1969
  • Meek E.S. Changes in cellular deoxyribonucleic acid in mouse skin following application of a tumor-promoting agent. Exp. Cell Res. 1963; 29: 389
  • Middleton M., Pratt I. Changes in incorporation of (3H) thymidine into DNA of rat skin following cutaneous application of dibutyltin, tributyltin and 1-chloro-2:4-dinitrobenzene and the relationship of these changes to a morphological assessment of the cellular damage. J. Invest. Dermatol. 1978; 71: 305
  • Milstein H.G., Cornell R.C. Diurnal mitotic studies of psoriatic epidermis. J. Invest. Dermatol. 1973; 61: 180
  • Mishima Y., Pinkus H. Electron microscopy of keratin layer stripped human epidermis. J. Invest. Dermatol. 1968; 50: 89
  • Montagna W. The Structure and Function of the Skin. Academic Press, New York 1956
  • Montagna W., Chase H.B. Redifferentiation of sebaceous glands in the mouse after total extirpation with methylcholanthrene. Anat. Rec. 1950; 107: 83
  • Montagna W., Ellis R.A. The Biology of Hair Growth. Academic Press, New York 1958
  • Morris R., Argyris T.S. 1980, unpublished observations
  • Mueller S.N., Argyris T.S. Pattern of growth and ribosome accumulation during 3-methylcholanthrene-induced epidermal hyperplasia. Cancer Res. 1977; 37: 3400
  • Odland G.F., Carlsen R.A. Model systems for the analysis of keratinocyte differentiation. Acta Derm. Venereol. Suppl. 1973; 73: 15
  • Odland G., Ross R. Human wound repair. J. Cell Biol. 1968; 39: 135
  • Orr J.W. The role of the stroma in cutaneous carcinogenesis. Advances in Biology of Skin, W. Montagna, R.L. Dobson. Pergamon Press, Oxford 1965; Vol. 7: 247
  • Peacock E.E., van Winkle W. Wound Repair. W. B. Saunders, Philadelphia 1976
  • Pinkus H. Examination of the epidermis by the strip method. II. Biometric data on regeneration of the human epidermis. J. Invest. Dermatol. 1952; 19: 431
  • Potten C.S. The epidermal proliferative unit: the possible role of the central basal cell. Cell Tissue Kinet. 1974; 7: 77
  • Potten C. Epithelial proliferative subpopulations. Stem Cells and Tissue Homeostasis, B.I. Lord, C.S. Potten, R.J. Cole. Cambridge University Press, London 1978; 317
  • Potten C.S., Allen T.D. The fine structure and cell kinetics of mouse epidermis after wounding. J. Cell Sci. 1975; 17: 413
  • Potten C.S., Kovacs L., Hamilton E. Continuous labeling studies on mouse skin and intestine. Cell Tissue Kinet. 1974; 7: 271
  • Pound A.W. Carcinogenesis and cell proliferation. N. Z. Med. J. 1968; 67: 88
  • Raick A.N. Late ultrastructural changes induced by 12–0-tetradecanoyl-phorbol-13-acetate in mouse epidermis and their reversal. Cancer Res. 1973; 33: 1096
  • Raick A.N. Cell proliferation and promoting action in skin carcinogenesis. Cancer Res. 1974; 34: 920
  • Raick A.N. Cell differentiation and tumor-promoting action in skin carcinogenesis. Cancer Res. 1974; 34: 2915
  • Raick A.N., Burdzy K. Ultrastructural and biochemical changes in mouse epidermis by a hyperplastic agent, ethylphenylpropiolate. Cancer Res. 1973; 33: 2221
  • Raick A.N., Thumm K., Chivers B.R. Early effects of 12–0-tetradecanoyl-phorbol-13-acetate on the incorporation of tritiated precursor into DNA and the thickness of the interfollicular epidermis, and their relation to tumor promotion in mouse skin. Cancer Res. 1972; 32: 1562
  • Reaven E.R., Cox A.J. Behavior of adult human skin in organ culture. II. Effects of cellophane tape stripping, temperature, oxygen tension, pH and serum. J. Invest. Dermatol. 1968; 50: 118
  • Saffiotti U., Shubik P. Studies on promoting action in skin carcinogenesis. Natl. Cancer Inst., Monogr. 1963; 10: 489
  • Salaman M.H., Gwynn R.H. The histology of co-carcinogenesis in mouse skin. Br. J. Cancer 1951; 5: 252
  • Schellander F. Reaktion von Epidermis und subepidermalen Bindegewebe auf Hornschichtabrisse. Arch. Klin. Exp. Dermatol. 1969; 234: 158
  • Sengel P. Morphogenesis of Skin. Cambridge University Press, New York 1976
  • Setala K., Merenmies L., Stjernvall L., Aho Y., Kajanne P. Mechanism of experimental tumorigenesis. I. Epidermal hyperplasia in mouse caused by locally applied tumor initiator and dipole-type tumor promoter. J. Natl. Cancer Inst. 1959; 23: 925
  • Silver A.F., Chase H.B., Arsenault C.T. Early anagen initiated by plucking compared with early spontaneous anagen. Advances in Biology of Skin, W. Montagna, R.L. Dobson. Pergamon Press, Oxford 1967; Vol. 9: 265
  • Slaga T.J., Bowden G.T., Boutwell R.K. Acetic acid, a potent stimulator of mouse epidermal macromolecular synthesis and hyperplasia but with weak tumor-promoting ability. J. Natl. Cancer Inst. 1975; 55: 983
  • Slaga T.J., Scribner J.D., Thompson S., Viaje A. Epidermal cell proliferation and promoting ability of phorbol esters. J. Natl. Cancer Inst. 1976; 57: 1145
  • Soffen G.A., Blum H.F. Quantitative measurements of changes in mouse skin following a single dose of ultraviolet light. J. Cell. Comp. Physiol. 1961; 58: 81
  • Steel G.G. Growth Kinetics of Tumours. Clarendon Press, Oxford 1977; 5
  • Stern I.B., Dayton L., Deucy J. The uptake of tritiated thymidine by the dorsal epidermis of the fetal and newborn rat. Anat. Rec. 1971; 170: 225
  • Suzuki H., Fukuyama K., Epstein J.H., Epstein W.L. Ultrastructural study of the nuclei in premitotic and repair DNA synthesis following UVB injury. J. Invest. Dermatol. 1978; 71: 334
  • van Duuren B.L. Tumor-promoting agents in two-stage carcinogenesis. Prog. Exp. Tumor Res. 1969; 11: 31
  • van Duuren B.L., Sivak A. Tumor-promoting agents from Croton tiglium L. and their mode of action. Cancer Res. 1968; 28: 2349
  • Weiss P., Kavanau J.L. A model of growth and growth control in mathematical terms. J. Gen. Physiol. 1957; 41: 1
  • Wessells N.K. Differentiation of epidermis and epidermal derivatives. N. Engl. J. Med. 1967; 277: 21
  • Williams M.G., Hunter R. Studies on epidermal regeneration by means of the strip method. J. Invest. Dermatol. 1957; 29: 407
  • Winter G.D. Epidermal regeneration studied in the domestic pig. Epidermal Wound Healing, H.I. Maibach, D.T. Rovee. Year Book Medical Publishing, Chicago 1972; 71
  • Wright P.G. An Introduction to Pathology. Little, Brown, Boston 1958
  • Yamaguchi T., Hirobe T., Kinjo Y., Manaka Y. The effect of chalone on the cell cycle in the epidermis during wound healing. Exp. Cell Res. 1974; 89: 247
  • Yamaguchi T., Tabachnick J. Cell kinetics of epidermal repopulation and persistent hyperplasia in locally β-irradiated guinea pig skin. Radiat. Res. 1972; 50: 158
  • Zil S.J. Vitamin A acid effects on epidermal mitotic activity, thickness and cellularity in the hairless mouse. J. Invest. Dermatol. 1972; 59: 228
  • Argyris T.S. Glycogen in the epidermis of mice painted with methylcholanthrene. J. Natl. Cancer Inst. 1952; 12: 1159
  • Cohen S. Isolation and biological effects of an epidermal growth-stimulating protein. Natl. Cancer Inst. Monogr. 1964; 13: 13
  • Krawczyk W.S. A pattern of epidermal cell migration during wound healing. J. Cell Biol. 1971; 49: 247
  • Montagna W. Penetration and local effect of vitamin A on the skin of the guinea pig. Proc. Soc. Exp. Biol. Med. 1954; 86: 668
  • Redmond A.F., Rothberg S. Arginase activity and other cellular events associated with epidermal hyperplasia. J. Cell Physiol. 1978; 94: 99
  • Shubik P. Studies on the promoting phase in the stages of carcinogenesis in mice, rats, rabbits, and guinea pigs. Cancer Res. 1950; 10: 13
  • Stegman S.J., Bonfilio N.D., Fukuyama K., Epstein W.L. Effects of phytohemagglutinin and concanavalin-A on mammalian epidermal cells. Cell Differentiation 1974; 3: 71
  • Tarin D. Further electron microscopic studies on the mechanism of carcinogenesis: the specificity of the changes in carcinogen-treated epidermis. Int. J. Cancer 1968; 3: 734
  • Yuspa S., Hennings H., Saffiotti U. Cutaneous chemical carcinogenesis: past, present and future. J. Invest. Dermatol. 1976; 67: 199
  • Hecker E. Isolation and characterization of the cocarcinogenic principles from croton oil. Methods in Cancer Research, H. Busch. Academic Press, New York 1971; Vol. 6: 439
  • Gabbiani G., Ryan G.B. Development of a contractal apparatus in epithelial cells during epidermal and liver regeneration. J. Submicrosc. Cytol 1974; 6: 143
  • Chase H.B., Arugh H., Smith V.W. Critical stages of hair development and pigmentation in the mouse. Physiol. Zool. 1951; 24: 1

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.