Granulins: the structure and function of an emerging family of growth factors

doi:10.1677/joe.0.1580145

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Granulins: the structure and function of an emerging family of growth factors

A Bateman and HP Bennett

The granulin/epithelin motif defines a family of structurally unique proteins, of great evolutionary antiquity, which have been implicated as regulators of cell growth. Recurrent in granulin research are the surprising parallels between the granulin and EGF systems. Both are cysteinerich peptides of approximately 6 kDa that can modify cell growth. They show similar, but not identical, biological activities, although granulin/epithelin peptides do not bind EGF receptors; the three-dimensional folds of granulin and EGF are partially superimposible; and the precursors for mammalian granulin/epithelins and EGF are both organized as multiple repeats of conserved cysteine modules. Given the dissimilarity between amino acid sequences of members of the granulin/epithelin family and EGF-related peptides, the parallelism between the two systems probably represents convergent evolution towards related solutions to common biological problems. The granulin/epithelin precursor gene is expressed throughout the body, but its expression is predominantly in epithelial and haematopoietic cells. There is a great deal of versatility in the means by which cells process and handle the granulin/epithelin precursor. In some instances, the precursor is secreted intact (Zhou et al. 1993), and in others it is stored in a vesicular organelle, such as the sperm acrosome (Baba et al. 1993a). It may be processed into small 6-kDa peptides, which, in the neutrophil, can also be stored in vesicles (Bateman et al. 1990, Couto et al. 1992). The 6-kDa peptide forms, the intact precursor, and related proteins such as TGFe, regulate the growth of epithelial and mesenchymal cells. Epithelial cells express putative receptors for granulin/epithelin peptides and TGFe (Culouscou et al. 1993, Parnell et al. 1995). Thus, although much remains to be clarified, granulin/epithelin polypeptides and related proteins are emerging as widely distributed potential autocrine and paracrine growth modulating factors for epithelial and mesenchymal cells.

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HOME

HELP

SUBSCRIPTIONS

				P. Van Damme, A. Van Hoecke, D. Lambrechts, P. Vanacker, E. Bogaert, J. van Swieten, P. Carmeliet, L. Van Den Bosch, and W. Robberecht Progranulin functions as a neurotrophic factor to regulate neurite outgrowth and enhance neuronal survival J. Cell Biol., April 3, 2008; 181(1): 37 - 41. [Abstract] [Full Text] [PDF]

				M. Shabab, T. Shindo, C. Gu, F. Kaschani, T. Pansuriya, R. Chintha, A. Harzen, T. Colby, S. Kamoun, and R. A.L. van der Hoorn Fungal Effector Protein AVR2 Targets Diversifying Defense-Related Cys Proteases of Tomato PLANT CELL, April 1, 2008; 20(4): 1169 - 1183. [Abstract] [Full Text] [PDF]

				F. A. Simpkins, N. M. Devoogdt, N. Rasool, N. E. Tchabo, E. U. Alejandro, M. M.R.N. Kamrava, and E. C. Kohn The alarm anti-protease, secretory leukocyte protease inhibitor, is a proliferation and survival factor for ovarian cancer cells Carcinogenesis, March 1, 2008; 29(3): 466 - 472. [Abstract] [Full Text] [PDF]

				G. Monami, E. M. Gonzalez, M. Hellman, L. G. Gomella, R. Baffa, R. V. Iozzo, and A. Morrione Proepithelin Promotes Migration and Invasion of 5637 Bladder Cancer Cells through the Activation of ERK1/2 and the Formation of a Paxillin/FAK/ERK Complex. Cancer Res., July 15, 2006; 66(14): 7103 - 7110. [Abstract] [Full Text] [PDF]

				W. E. Kim and G. Serrero PC Cell-Derived Growth Factor Stimulates Proliferation and Confers Trastuzumab Resistance to Her-2-Overexpressing Breast Cancer Cells. Clin. Cancer Res., July 15, 2006; 12(14): 4192 - 4199. [Abstract] [Full Text] [PDF]

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				P. C. Hanington, D. R. Barreda, and M. Belosevic A Novel Hematopoietic Granulin Induces Proliferation of Goldfish (Carassius auratus L.) Macrophages J. Biol. Chem., April 14, 2006; 281(15): 9963 - 9970. [Abstract] [Full Text] [PDF]

				F. Marin, R. Amons, N. Guichard, M. Stigter, A. Hecker, G. Luquet, P. Layrolle, G. Alcaraz, C. Riondet, and P. Westbroek Caspartin and Calprismin, Two Proteins of the Shell Calcitic Prisms of the Mediterranean Fan Mussel Pinna nobilis J. Biol. Chem., October 7, 2005; 280(40): 33895 - 33908. [Abstract] [Full Text] [PDF]

				X. Sun, M. Gulyas, and A. Hjerpe Mesothelial Differentiation as Reflected by Differential Gene Expression Am. J. Respir. Cell Mol. Biol., April 1, 2004; 30(4): 510 - 518. [Abstract] [Full Text] [PDF]

				P. V. Nantermet, J. Xu, Y. Yu, P. Hodor, D. Holder, S. Adamski, M. A. Gentile, D. B. Kimmel, S.-i. Harada, D. Gerhold, et al. Identification of Genetic Pathways Activated by the Androgen Receptor during the Induction of Proliferation in the Ventral Prostate Gland J. Biol. Chem., January 9, 2004; 279(2): 1310 - 1322. [Abstract] [Full Text] [PDF]

				E. M. Gonzalez, M. Mongiat, S. J. Slater, R. Baffa, and R. V. Iozzo A Novel Interaction between Perlecan Protein Core and Progranulin: POTENTIAL EFFECTS ON TUMOR GROWTH J. Biol. Chem., October 3, 2003; 278(40): 38113 - 38116. [Abstract] [Full Text] [PDF]

				Z. He, A. Ismail, L. Kriazhev, G. Sadvakassova, and A. Bateman Progranulin (PC-Cell-derived Growth Factor/Acrogranin) Regulates Invasion and Cell Survival Cancer Res., October 1, 2002; 62(19): 5590 - 5596. [Abstract] [Full Text] [PDF]

				M. Hoque, T. M. Young, C.-G. Lee, G. Serrero, M. B. Mathews, and T. Pe'ery The Growth Factor Granulin Interacts with Cyclin T1 and Modulates P-TEFb-Dependent Transcription Mol. Cell. Biol., March 1, 2002; 23(5): 1688 - 1702. [Abstract] [Full Text] [PDF]

				A. T. HASTIE, W. K. KRAFT, K. B. NYCE, J. G. ZANGRILLI, A. I. MUSANI, J. E. FISH, and S. P. PETERS Asthmatic Epithelial Cell Proliferation and Stimulation of Collagen Production . Human Asthmatic Epithelial Cells Stimulate Collagen Type III Production by Human Lung Myofibroblasts after Segmental Allergen Challenge Am. J. Respir. Crit. Care Med., January 15, 2002; 165(2): 266 - 272. [Abstract] [Full Text] [PDF]

				K. Yamada, R. Matsushima, M. Nishimura, and I. Hara-Nishimura A Slow Maturation of a Cysteine Protease with a Granulin Domain in the Vacuoles of Senescing Arabidopsis Leaves Plant Physiology, December 1, 2001; 127(4): 1626 - 1634. [Abstract] [Full Text] [PDF]

				J. HAYLOR, H. HICKLING, E. EL ETER, A. MOIR, S. OLDROYD, C. HARDISTY, and A. M. EL NAHAS JB3, an IGF-I Receptor Antagonist, Inhibits Early Renal Growth in Diabetic and Uninephrectomized Rats J. Am. Soc. Nephrol., November 1, 2000; 11(11): 2027 - 2035. [Abstract] [Full Text]

				R. Daniel, Z. He, K. P. Carmichael, J. Halper, and A. Bateman Cellular Localization of Gene Expression for Progranulin J. Histochem. Cytochem., July 1, 2000; 48(7): 999 - 1010. [Abstract] [Full Text]

				R. Lu and G. Serrero Inhibition of PC cell-derived growth factor (PCDGF, epithelin/granulin precursor) expression by antisense PCDGF cDNA transfection inhibits tumorigenicity of the human breast carcinoma cell line MDA-MB-468 PNAS, April 11, 2000; 97(8): 3993 - 3998. [Abstract] [Full Text] [PDF]

				L. M. Liau, R. L. Lallone, R. S. Seitz, A. Buznikov, J. P. Gregg, H. I. Kornblum, S. F. Nelson, and J. M. Bronstein Identification of a Human Glioma-associated Growth Factor Gene, granulin, Using Differential Immuno-absorption Cancer Res., March 1, 2000; 60(5): 1353 - 1360. [Abstract] [Full Text]

				Z. He and A. Bateman Progranulin Gene Expression Regulates Epithelial Cell Growth and Promotes Tumor Growth in Vivo Cancer Res., July 1, 1999; 59(13): 3222 - 3229. [Abstract] [Full Text] [PDF]