Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-22T06:44:23.289Z Has data issue: false hasContentIssue false
  • English
  • Français

Nutritional and hormonal regulation of hair follicle growth and development

Published online by Cambridge University Press:  03 August 2018

Hugh Galbraith
Hugh Galbraith*
Affiliation:
Department of Agriculture, University of Aberdeen, 581 King Street, Aberdeen AB24 5UA, NSW 2010, UK
*
Corresponding author: Dr Hugh Galbraith, fax + 44 (0)1224 273731, email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Animal Nutrition and Metabolism Group Symposium on ‘Nutrient regulation of cell proliferation and death’
Information
Proceedings of the Nutrition Society , Volume 57 , Issue 2 , May 1998 , pp. 195 - 205
Copyright
Copyright © The Nutrition Society 1998

References

Agricultural and Food Research Council (1993) Energy and Protein Requirements of Ruminants. An Advisory Manual Prepared by the AFRC Technical Committee on Responses to Nutrients. Wallingford: CAB International.Google Scholar
Bond, JJ, Wynn, PC & Moore, GPM (1996) Effects of epidermal growth factor and transforming growth factor alpha on the function of wool follicles in culture. Archives of Dermatology 288, 373-382.Google Scholar
Chapman, RE & Bassett, JM (1970) The effects of prolonged administration of Cortisol on the skin of sheep on different planes of nutrition. Journal of Endocrinology 48, 649-663.CrossRefGoogle ScholarPubMed
Choy, VJ, Nixon, AJ & Pearson, AJ (1995) Localisation of receptors of prolactin in ovine skin. Journal of Endocrinology 144, 143-151.Google Scholar
Courtois, M, Loussouarn, G, Hourseau, S & Grollier, JF (1996) Periodicity in the growth and shedding of hair. British Journal of Dermatology 134, 47-54.Google Scholar
Danks, DM (1991) Copper deficiency and the skin. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 1351-1361 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Dicks, P (1994) The role of prolactin and melatonin in regulating the timing of the spring moult in the Cashmere goat. In Hormonal Control of Fibre Growth and Shedding. European Fine Fibre Network Occasional Publication no. 2, pp. 109-125 [Laker, JP and Allain, D, editors]. Aberdeen: Macaulay Land Use Research Institute.Google Scholar
Dicks, P, Morgan, CJ, Morgan, PJ, Kelly, D & Williams, LM (1996) The localisation and characterisation of insulin-like growth factor-I receptors and the investigation of melatonin receptors on the hair follicles of seasonal and non-seasonal fibre producing goats. Journal of Endocrinology 151, 55-61.Google Scholar
Dicks, P, Russel, AJF & Linoln, GA (1995) The effect of melatonin implants given under different day length regimes on plasma prolactin concentrations and fibre growth and shedding in Cashmere goats. Animal Science 60, 239-247.Google Scholar
Ebling, FJG, Hale, PA & Randall, VA (1991) Hormone and hair growth. In Physiology, Biochemistry and Molecular Biology in the Skin, pp. 660-696 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Ferguson, KA, Schinkel, PG, Carter, HB & Clark, WH (1956) The influence of the thyroid on wool follicle development in the lamb. Australian Journal of Biological Science 9, 575-588.CrossRefGoogle Scholar
Galbraith, H (1994) Follicle culture. A new approach to explore seasonal control of fibre growth. In Hormonal Control of Fibre Growth and Shedding. European Fine Fibre Network Occasional Publication no. 2, pp. 129-145 [Laker, IP and Allain, D, editors]. Aberdeen: Macaulay Land Use Research Institute.Google Scholar
Galbraith, H (1995) The effects of diet on nutrient partition in Scottish cashmere and Angora goats. In Nutrition and Grazing Ecology of Speciality Fibre Producing Animals. European Fine Fibre Network Occasional Publication no. 3, pp. 23-50 [Laker, JP and Russel, AJF, editors]. Aberdeen: Macaulay Land Use Research Institute.Google Scholar
Galbraith, H, Sims, D & Hazlerigg, DH (1997) The effect of IGF-I on the growth of secondary hair follicles of the Cashmere goat in vitro. Proceedings of the British Society of Animal Science, p. 170 Abstr.Google Scholar
Gillespie, JM (1991) The structural proteins of hair: isolation, characterization and regulation of biosynthesis. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 625-659 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Goetinck, PF & Winterbottom, N (1991) Proteoglycans: modular macromolecules of the extracellular matrix. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 558-575 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Goldsmith, LA (editor) (1991) In Physiology, Biochemistry and Molecular Biology of the Skin, 2nd ed. New York: Oxford University Press.Google Scholar
Hardy, MH (1992) The secret life of the hair follicle. Trends in Genetics 8, 55-61.Google Scholar
Harris, P & Lobley, GE (1991) Amino acid and energy metabolism in peripheral tissues of ruminants. In Physiological Aspects of Digestion in Ruminants. Proceedings of the VII International Symposium on Ruminant Physiology, pp. 201-230 [Tsuda, T, Sasaki, Y and Kawashima, R, editors]. London: Academic Press.Google Scholar
Hebert, JM, Rosenquist, T, Gotz, J & Martin, GM (1994) FGF5 as a regulator of the hair growth cycle: evidence from targeted and spontaneous mutations. Cell 78, 1017-1025.Google Scholar
Holbrook, KA (1991) Structure and function of the developing human skin. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 63-110 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Hynd, PI (1989) Effects of nutrition on wool follicle cell kinetics in sheep differing in efficiency of wool production. Australian Journal of Agricultural Research 40, 409-117.Google Scholar
Ibraheem, J, Galbraith, H, Scaife, JR & Ewen, SWB (1993) Growth and viability of secondary hair follicles of the Angora goat, cultured in vitro. Journal of Anatomy 182, 231-238.Google Scholar
Ibraheem, M, Galbraith, H, Scaife, JR & Ewen, SWB (1994) Growth of secondary hair follicles of the Cashmere goat in vitro and their response to prolactin and melatonin. Journal of Anatomy 185, 135-142.Google Scholar
Jiang, H, Yamamoto, S & Kato, R (1995) Induction of anagen in telogen mouse skin by topical application of FK506, a potent immunosuppressant. Journal of Investigative Dermatology 104, 523-525.Google Scholar
Jindo, T, Tsuboi, R, Takamori, K & Ogawa, A (1996) Local injection of hepatocyte growth factor/scatter factor (HGF/SF) promotes hair follicle growth in vivo. In Hair Research for the Next Millennium, pp. 433-435 [van Neste, D and Randall, VA, editors]. Amsterdam: Elsevier.Google Scholar
Konig, A, Happle, R & Hoffman, R (1996) Cytokines characteristic of alopecia areata regulate the expression of ICAM-I and MHC class 1 and 11 molecules in cultured dermal papilla cells. In Hair Research for the Next Millennium, pp. 243-247 [van Neste, D and Randall, VA, editors]. Amsterdam: Elsevier.Google Scholar
Lachgar, S, Charveron, M, Ceruti, I, Lagarde, JM, Gall, Y & Bonafe, JL (1996) VEGF mRNA expression in different stages of the human hair cycle: analysis by confocal laser microcopy. In Hair Research for the Next Millennium, pp. 407411 [van Neste, D and Randall, VA, editors]. msterdam: Elsevier.Google Scholar
McDonald, BJ, Hoey, A & Hopkins, PS (1987) Cyclical growth in Cashmere goats. Australian Journal of Agricultural Research 38, 597-609.Google Scholar
Margolena, LA (1974) Mohair histogenesis, maturation and shedding in the Angora goat. Technical Bulletin no. 1495, Beltsville, MD: United States Department of Agriculture.Google Scholar
Marston, HR (1948) Nutritional factors involved in wool production by Merino sheep. Australian Journal of Scientific Research 81, 362-375.Google Scholar
Mason, JJ (1994) The ins and outs of fibroblast growth factors. Cell 78, 547-552.Google Scholar
Mengal, MA, Galbraith, H, Scaife, JR & Souri, M (1997) Effect of methionine supplementation of the diet on growth of hoof horn and mohair in Angora goats. Proceedings of the British Society of Animal Science, p. 168 Abstr.Google Scholar
Messenger, AG (1993) The control of hair growth: an overview. Journal of Investigative Dermatology 101, Suppl. 1, 4S1-5S.Google Scholar
Ministry of Agriculture, Fisheries and Food (1990) UK Tables of Nutritional Value and Chemical Compositions of Feedingstuffs. Ministry of Agriculture, Fisheries and Food, Standing Committee on Tables of Feed Composition. Aberdeen: Rowett Research Services.Google Scholar
Nagorcka, BN & Mooney, JR (1982) The role of a reaction-diffusion system in the formation of hair fibres. Journal of Theoretical Biology 98, 575-607.CrossRefGoogle ScholarPubMed
Neldner, KH (1991) The biochemistry and physiology of zinc metabolism. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 1329-1350 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Nixon, AJ, Choy, VJ, Parry, AL & Pearson, AJ (1993) Fiber growth initiation in hair follicles of goats treated with melatonin. Journal of Experimental Zoology 267, 47-56.CrossRefGoogle ScholarPubMed
Oliver, RF & Jahoda, CAB (1989) The dermal papilla and maintenance of hair growth. In The Biology of Wool and Hair, pp. 51-68 [Rogers, GE, Reis, PJ, Ward, KA and Marshall, RC, editors]. Cambridge: Chapman and Hall Ltd.Google Scholar
Orwin, DFG (1989) Variations in wool follicle morphology. In The Biology of Wool and Hair, pp. 227-242 [Rogers, GE, Reis, PJ, Ward, KA and Marshall, RC, editors]. Cambridge: Chapman and Hall Ltd.Google Scholar
Paus, R, Handjiski, B, Czarnetzki, BM & Eichmuller, SS (1994a) A murine model for inducing and manipulating hair follicle regression (catagen): effects of dexamefhasone and cyclosporin A. Journal of Investigative Dermatology 103, 143-147.Google Scholar
Paus, R, Luffl, M & Czarnetzki, BMBM (1994fc) Nerve growth factor modulates keratinocyte proliferation in murine skin culture. British Journal of Dermatology 130, 174-180.Google Scholar
Pearson, AJ, Ashby, MG, Choy, VJ, Nixon, AJ & Wildermoth, JE (1993) The effects on wool growth of suppression of plasma prolactin surge following short to long day transition. Journal of Endocrinology 139, Suppl., P 46.Google Scholar
Philpott, MP, Green, MR & Kealey, T (1990) Human hair growth in vitro. Journal of Cell Science 97, 463-471.Google Scholar
Philpott, MP, Sanders, DA & Kealey, T (1994) Effects of insulin and insulin-like growth factors on cultured human hair follicles: IGF-I at physiologic concentrations is an important regulator of hair follicle growth in vitro. Journal of Investigative Dermatology 102, 857-861.Google Scholar
Philpott, MP, Sanders, D & Kealey, T (1995) Cultured human hair follicles and growth factors. Journal of Investigative Dermatology 104, Suppl. 5, 44S-5S.Google Scholar
Pittelkow, MR, Coffey, RJ & Moses, HL (1991) Transforming growth factor-β and other growth factors. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 351-384 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Pruche, F, Boyera, N & Bernard, BA (1996) K+ATP channel openers inhibit the bradykinin-induced increase of intracellular calcium in hair follicle outer root sheath keratinocytes. In Hair Research for the Next Millennium, pp. 463-466 [van Neste, D and Randall, VA, editors]. Amsterdam: Elsevier.Google Scholar
Randall, VA & Ebling, FJG (1991) Seasonal changes in human hair growth. British Journal of Dermatology 124, 146-151.Google Scholar
Randall, VA, Hibberts, NA & Hamada, K (1996) A comparison of the culture and growth of dermal papilla cells from hair follicles from non-balding and balding (androgenetic alopecia) scalp. British Journal of Dermatology 134, 437-44.Google Scholar
Randall, VA, Thornton, JM, Hamada, K & Messenger, AG (1992) Mechanism of androgen action in cultured dermal papilla cells derived from human hair follicles with varying responses to androgens in vivo. Journal of Investigative Dermatology 98, 86S-91S.Google Scholar
Reis, PJ (1989) The influence of absorbed nutrients on wool growth. In The Biology of Wool and Hair, pp. 185-204 [Rogers, GE, Reis, PJ, Ward, KA and Marshall, RC, editors]. Cambridge: Chapman and Hall Ltd.Google Scholar
Rhind, SM & McMillen, SR (1995a) Seasonal patterns of secondary fibre growth, moulting and hair follicle activity in Siberian and Icelandic x Scottish feral goats offered high and low levels of dietary protein. Small Ruminant Research 16, 69-76.Google Scholar
Rhind, SM & McMillen, SR (19956) Seasonal changes in systemic hormone profiles and their relationship to patterns of fibre growth and moulting in goats of contrasting genotypes. Australian Journal of Agricultural Research 46, 1273-1283.Google Scholar
Rhind, SM & McMillen, SR (1996) Effects of methyl thiouracil treatment on the growth and moult of Cashmere fibre in goats. Animal Science 62, 513-520.Google Scholar
Rogers, GE, Reis, PJ, Ward, KA & Marshall, RC (editors) (1989) The Biology of Wool and Hair, Cambridge: Chapman and Hall Ltd.Google Scholar
Rosenquist, TA & Martin, GR (1996) Fibroblast growth factor signalling in the hair growth cycle: expression of the fibroblast growth factor receptor and ligand genes in the murine hair follicle. Developmental Dynamics 205, 379-386.Google Scholar
Russel, AJF (1995) Current knowledge on the effects of nutrition on fibre production. In The Nutrition and Grazing Ecology of Speciality Fibre Producing Animals. European Fine Fibre Network Occasional Publication no. 3, pp. 3-21 [Laker, JP and Russel, AJF, editors]. Aberdeen: Macaulay Land Use Research Institute.Google Scholar
Sanders, DA, Fiddes, I, Thompson, DM, Philpott, MP, Westgate, GE & Kealey, T (1996) Minoxidil potentiates the mitogenic properties of growth factors in vitro in the absence of streptomycin. In Hair Research for the Next Millennium, pp. 467-469 [van Neste, D and Randall, VA, editors]. Amsterdam: Elsevier.Google Scholar
Shahjalal, M, Galbraith, H & Topps, JH (1992) The effect of changes in dietary protein and energy on growth, body composition and mohair fibre characteristics of British Angora goats. Animal Production 54, 405-412.Google Scholar
Sherertz, EL & Goldsmith, LA (1991) Nutritional influence on the skin. In Physiology, Biochemistry and Molecular Biology of the Skin, pp. 1315-1328 [Goldsmith, LA, editor]. New York: Oxford University Press.Google Scholar
Sieberg, M, Marthinus, J & Stenn, KS (1995) Changes in the expression of apoptosis-associated genes in skin mark early catagen. Journal of Investigative Dermatology 104, 78-82.Google Scholar
Souri, M, Galbraith, H & Scaife, JR (1996) The role of methionine and cystine in the growth and viability of secondary follicles of the Cashmere goat in vitro. Animal Science 62, 669 Abstr.Google Scholar
Souri, M, Galbraith, H & Scaife, JR (1997a) Response of isolated mohair secondary follicles to epidermal growth factor in vitro. Proceedings of the Nutrition Society 56, 181 A.Google Scholar
Souri, M, Galbraith, H & Scaife, JR (1997b) Comparisons of the effect of genotype and protected methionine supplementation on growth, digestive characteristics and fibre yield in Cashmere and Angora goats. Animal Science 66, 217-223.Google Scholar
Souri, M, Galbraith, H & Scaife, JR (1997c) Effect of protected methionine supplementation of the diet on the partitioning of dietary nitrogen in the Angora goat. Proceedings of the British Society of Animal Science, p. 167 Abstr.Google Scholar
Stenn, KS, Lawrence, L, Veis, D, Korsmeyer, S & Sieberg, M (1994) Expression of the be 1-2 protooncogene in the cycling adult mouse hair follicle. Journal of Investigative Dermatology 103, 107-111.Google Scholar
Tahmasbi, AM, Galbraith, H & Scaife, JR (1996) Development of an in vitro technique to investigate the role of biotin in regulating wool growth in sheep. Animal Science 62, 670 Abstr.Google Scholar
Tahmasbi, M, Galbraith, H & Scaife, JR (1997) The role of biotin in the pre-ruminant and immediately post-ruminant goat. Proceedings of the British Society of Animal Science, 169 Abstr.Google Scholar
Thomas, DG, Brinklow, BR, Randall, VA & Loudon, ASI (1993) Prolactin and triiodothyronine (T3) stimulate hair growth in cultured follicles of red deer summer coat. Journal of Endocrinology 139, 50 Abstr.Google Scholar
van Neste, D & Randall, VA (editors) (1996) In Hair Research for the Next Millennium. Amsterdam: Elsevier.Google Scholar
Westgate, GE, Craggs, RI & Gibson, WT (1991) Immune privilege in hair growth. Journal of Investigative Dermatology 97, 417420.Google Scholar
Yamada, Y, Takama, H, Kitamura, T, Yokochi, K, Nitta, Y, Ikeya, T & Matsumoto, Y (1994) Intensification of programmed cell death in normal human skin tissues by using specific labelling of fragmented DNA. British Journal of Dermatology 131, 521-524.Google Scholar