Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Archives of Dermatological Research
Published in: Archives of Dermatological Research 10/2013

01-12-2013 | Review Article

Study of small proline-rich proteins (SPRRs) in health and disease: a review of the literature

Authors: Fernanda Carregaro, Ana Carolina B. Stefanini, Tiago Henrique, Eloiza H. Tajara

Published in: Archives of Dermatological Research | Issue 10/2013

Login to get access

Abstract

Epithelial tissues are specialized to protect underlying tissues from environmental influences such as physical and chemical agents, infection by invasive microorganisms as well as water and heat loss. They are grouped into simple, transitional and stratified epithelia, which line the cavities and surfaces of structures throughout the body, and also form glands, separate compartments, regulate the exchange of molecules and act as sensory organs. Stratified epithelia such as the epidermis and the gingival and hard palate mucosa are in constant renewal, with cells proliferating in the lower layers, while the intermediate stratum and outermost layers undergo a tissue-specific process of differentiation to form a protective cornified barrier. This review focuses on a subclass of structural proteins, the small proline-rich proteins (SPRRs), which constitute cornified cell envelope precursors. Several studies have suggested that the SPRRs are related to increased epithelial proliferation and to malignant processes. Hence, we also review the literature for more extensive and in-depth profile of these proteins in cancer and other diseases. The understanding of SPRR functions has advanced in recent years, but many important questions about their role in pathophysiological processes remain unanswered, which stimulate new studies and approaches.
Literature
1.
Abraham JM, Wang S, Suzuki H, Jiang HY, Rosenblum-Vos LS, Yin J, Meltzer SJ (1996) Esophagin cDNA cloning and characterization: a tissue-specific member of the small proline-rich protein family that is not expressed in esophageal tumors. Cell Growth Differentiation Mol Biol J Am Assoc Cancer Res 7(7):855–860
2.
Alberts B, Johnson A, Lewis J (2002) Molecular biology of the cell. In: 4 edn. Garland science
3.
4.
5.
6.
7.
Burton MJ, Rajak SN, Bauer J, Weiss HA, Tolbert SB, Shoo A, Habtamu E, Manjurano A, Emerson PM, Mabey DC, Holland MJ, Bailey RL (2011) Conjunctival transcriptome in scarring trachoma. Infect Immun 79(1):499–511. doi:10.​1128/​IAI.​00888-10 PubMedCrossRef
8.
Cabral A, Sayin A, de Winter S, Fischer DF, Pavel S, Backendorf C (2001) SPRR4, a novel cornified envelope precursor: UV-dependent epidermal expression and selective incorporation into fragile envelopes. J Cell Sci 114(Pt 21):3837–3843PubMed
9.
Cabral A, Voskamp P, Cleton-Jansen AM, South A, Nizetic D, Backendorf C (2001) Structural organization and regulation of the small proline-rich family of cornified envelope precursors suggest a role in adaptive barrier function. J Biol Chem 276(22):19231–19237. doi:10.​1074/​jbc.​M100336200 PubMedCrossRef
10.
11.
Chen Z, Tong L, Li Z, Yoon KC, Qi H, Farley W, Li DQ, Pflugfelder SC (2008) Hyperosmolarity-induced cornification of human corneal epithelial cells is regulated by JNK MAPK. Invest Ophthalmol Vis Sci 49(2):539–549. doi:10.​1167/​iovs.​07-0569 PubMedCrossRef
12.
13.
de AST, Souza-Santos PT, de Oliveira DS, Bernardo V, Lima SC, Rapozo DC, Kruel CD, Faria PA, Ribeiro Pinto LF, Albano RM (2011) Quantitative evaluation of SPRR3 expression in esophageal squamous cell carcinoma by qPCR and its potential use as a biomarker. Exp Mol Pathol 91(2):584–589. doi:10.​1016/​j.​yexmp.​2011.​06.​006
14.
De Heller-Milev M, Huber M, Panizzon R, Hohl D (2000) Expression of small proline rich proteins in neoplastic and inflammatory skin diseases. Br J Dermatol 143(4):733–740PubMedCrossRef
15.
De Paiva CS, Villarreal AL, Corrales RM, Rahman HT, Chang VY, Farley WJ, Stern ME, Niederkorn JY, Li DQ, Pflugfelder SC (2007) Dry eye-induced conjunctival epithelial squamous metaplasia is modulated by interferon-gamma. Invest Ophthalmol Vis Sci 48(6):2553–2560. doi:10.​1167/​iovs.​07-0069 PubMedCrossRef
16.
Demetris AJ, Specht S, Nozaki I, Lunz JG 3rd, Stolz DB, Murase N, Wu T (2008) Small proline-rich proteins (SPRR) function as SH3 domain ligands, increase resistance to injury and are associated with epithelial-mesenchymal transition (EMT) in cholangiocytes. J Hepatol 48(2):276–288. doi:10.​1016/​j.​jhep.​2007.​09.​019 PubMedCrossRef
17.
18.
19.
Felsenstein J (1985) Confidence limits on phytogenies: an approach using the bootstrap. Evolution 39(4):783–791CrossRef
20.
Fischer DF, Backendorf C (2007) Identification of regulatory elements by gene family footprinting and in vivo analysis. Adv Biochem Eng Biotechnol 104:37–64PubMed
21.
Fischer DF, Gibbs S, van De Putte P, Backendorf C (1996) Interdependent transcription control elements regulate the expression of the SPRR2A gene during keratinocyte terminal differentiation. Mol Cell Biol 16(10):5365–5374PubMed
22.
23.
24.
Fujimoto W, Nakanishi G, Arata J, Jetten AM (1997) Differential expression of human cornifin alpha and beta in squamous differentiating epithelial tissues and several skin lesions. J Invest Dermatol 108(2):200–204PubMedCrossRef
25.
Garmyn M, Yaar M, Boileau N, Backendorf C, Gilchrest BA (1992) Effect of aging and habitual sun exposure on the genetic response of cultured human keratinocytes to solar-simulated irradiation. J Invest Dermatol 99(6):743–748PubMedCrossRef
26.
Gibbs S, Fijneman R, Wiegant J, van Kessel AG, van De Putte P, Backendorf C (1993) Molecular characterization and evolution of the SPRR family of keratinocyte differentiation markers encoding small proline-rich proteins. Genomics 16(3):630–637. doi:10.​1006/​geno.​1993.​1240 PubMedCrossRef
27.
28.
29.
Hasegawa M, Kishino H, Yano T (1985) Dating of the human-ape splitting by a molecular clock of mitochondrial DNA. J Mol Evol 22(2):160–174PubMedCrossRef
30.
31.
Hohl D, de Viragh PA, Amiguet-Barras F, Gibbs S, Backendorf C, Huber M (1995) The small proline-rich proteins constitute a multigene family of differentially regulated cornified cell envelope precursor proteins. J Invest Dermatol 104(6):902–909PubMedCrossRef
32.
Hu R, Wu R, Deng J, Lau D (1998) A small proline-rich protein, spr1: specific marker for squamous lung carcinoma. Lung Cancer 20(1):25–30PubMedCrossRef
33.
Ishida-Yamamoto A, Iizuka H, Manabe M, O’Guin WM, Hohl D, Kartasova T, Kuroki T, Roop DR, Eady RA (1995) Altered distribution of keratinization markers in epidermolytic hyperkeratosis. Arch Dermatol Res 287(8):705–711PubMedCrossRef
34.
Jarzab J, Filipowska B, Zebracka J, Kowalska M, Bozek A, Rachowska R, Gubala E, Grzanka A, Hadas E, Jarzab B (2010) Locus 1q21 Gene expression changes in atopic dermatitis skin lesions: deregulation of small proline-rich region 1A. Int Arch Allerg Immunol 151(1):28–37. doi:10.​1159/​000232568 CrossRef
35.
Jetten AM, Harvat BL (1997) Epidermal differentiation and squamous metaplasia: from stem cell to cell death. J Dermatol 24(11):711–725PubMed
36.
Kainu K, Kivinen K, Zucchelli M, Suomela S, Kere J, Inerot A, Baker BS, Powles AV, Fry L, Samuelsson L, Saarialho-Kere U (2009) Association of psoriasis to PGLYRP and SPRR genes at PSORS4 locus on 1q shows heterogeneity between Finnish Swedish and Irish families. Exp Dermatol 18(2):109–115. doi:10.​1111/​j.​1600-0625.​2008.​00769.​x PubMedCrossRef
37.
Kalinin A, Marekov LN, Steinert PM (2001) Assembly of the epidermal cornified cell envelope. J Cell Sci 114(Pt 17):3069–3070PubMed
38.
Kartasova T, Darwiche N, Kohno Y, Koizumi H, Osada S, Huh N, Lichti U, Steinert PM, Kuroki T (1996) Sequence and expression patterns of mouse SPR1: correlation of expression with epithelial function. J Invest Dermatol 106(2):294–304PubMedCrossRef
39.
Kartasova T, van de Putte P (1988) Isolation, characterization, and UV-stimulated expression of two families of genes encoding polypeptides of related structure in human epidermal keratinocytes. Mol Cell Biol 8(5):2195–2203PubMed
40.
Kartasova T, van Muijen GN, van Pelt-Heerschap H, van de Putte P (1988) Novel protein in human epidermal keratinocytes: regulation of expression during differentiation. Mol Cell Biol 8(5):2204–2210PubMed
41.
Kim JC, Yu JH, Cho YK, Jung CS, Ahn SH, Gong G, Kim YS, Cho DH (2012) Expression of SPRR3 is associated with tumor cell proliferation in less advanced stages of breast cancer. Breast Cancer Res Treat 133(3):909–916. doi:10.​1007/​s10549-011-1868-5 PubMedCrossRef
42.
Kimchi ET, Posner MC, Park JO, Darga TE, Kocherginsky M, Karrison T, Hart J, Smith KD, Mezhir JJ, Weichselbaum RR, Khodarev NN (2005) Progression of Barrett’s metaplasia to adenocarcinoma is associated with the suppression of the transcriptional programs of epidermal differentiation. Cancer Res 65(8):3146–3154. doi:10.​1158/​0008-5472.​CAN-04-2490 PubMed
43.
Koizumi H, Kartasova T, Tanaka H, Ohkawara A, Kuroki T (1996) Differentiation-associated localization of small proline-rich protein in normal and diseased human skin. Br J Dermatol 134(4):686–692PubMedCrossRef
44.
45.
Lee CH, Marekov LN, Kim S, Brahim JS, Park MH, Steinert PM (2000) Small proline-rich protein 1 is the major component of the cell envelope of normal human oral keratinocytes. FEBS Lett 477(3):268–272PubMedCrossRef
46.
47.
Li S, Nikulina K, DeVoss J, Wu AJ, Strauss EC, Anderson MS, McNamara NA (2008) Small proline-rich protein 1B (SPRR1B) is a biomarker for squamous metaplasia in dry eye disease. Invest Ophthalmol Vis Sci 49(1):34–41. doi:10.​1167/​iovs.​07-0685 PubMedCrossRef
48.
Lohman FP, Medema JK, Gibbs S, Ponec M, van de Putte P, Backendorf C (1997) Expression of the SPRR cornification genes is differentially affected by carcinogenic transformation. Exp Cell Res 231(1):141–148. doi:10.​1006/​excr1996.​3458 PubMedCrossRef
49.
Lubrano E, Ciacci C, Ames PR, Mazzacca G, Oriente P, Scarpa R (1996) The arthritis of coeliac disease: prevalence and pattern in 200 adult patients. Br J Rheumatol 35(12):1314–1318PubMedCrossRef
50.
Luo A, Kong J, Hu G, Liew CC, Xiong M, Wang X, Ji J, Wang T, Zhi H, Wu M, Liu Z (2004) Discovery of Ca2+ -relevant and differentiation-associated genes downregulated in esophageal squamous cell carcinoma using cDNA microarray. Oncogene 23(6):1291–1299. doi:10.​1038/​sj.​onc.​1207218 PubMedCrossRef
51.
52.
Martin N, Patel S, Segre JA (2004) Long-range comparison of human and mouse Sprr loci to identify conserved noncoding sequences involved in coordinate regulation. Genome Res 14(12):2430–2438. doi:10.​1101/​gr.​2709404 PubMedCrossRef
53.
Martinet N, Beninati S, Nigra TP, Folk JE (1990) N1N8-bis(gamma-glutamyl)spermidine cross-linking in epidermal-cell envelopes. Comparison of cross-link levels in normal and psoriatic cell envelopes. Biochem J 271(2):305–308PubMed
54.
Maru DM, Singh RR, Hannah C, Albarracin CT, Li YX, Abraham R, Romans AM, Yao H, Luthra MG, Anandasabapathy S, Swisher SG, Hofstetter WL, Rashid A, Luthra R (2009) MicroRNA-196a is a potential marker of progression during Barrett’s metaplasia-dysplasia-invasive adenocarcinoma sequence in esophagus. Am J Pathol 174(5):1940–1948. doi:10.​2353/​ajpath.​2009.​080718 PubMedCrossRef
55.
McLean WH, Irvine AD (2007) Disorders of keratinisation: from rare to common genetic diseases of skin and other epithelial tissues. Ulster Med J 76(2):72–82PubMed
56.
Mischke D, Korge BP, Marenholz I, Volz A, Ziegler A (1996) Genes encoding structural proteins of epidermal cornification and S100 calcium-binding proteins form a gene complex (“epidermal differentiation complex”) on human chromosome 1q21. J Invest Dermatol 106(5):989–992PubMedCrossRef
57.
58.
59.
Pasini FS, Maistro S, Snitcovsky I, Barbeta LP, Rotea Mangone FR, Lehn CN, Walder F, Carvalho MB, Brentani MM, Federico MH (2012) Four-gene expression model predictive of lymph node metastases in oral squamous cell carcinoma. Acta Oncol 51(1):77–85. doi:10.​3109/​0284186X.​2011.​620619 PubMedCrossRef
60.
Presland RB, Dale BA (2000) Epithelial structural proteins of the skin and oral cavity: function in health and disease. Crit Rev Oral Biol Med Off Publ Am Assoc Oral Biol 11(4):383–408CrossRef
61.
Presland RB, Jurevic RJ (2002) Making sense of the epithelial barrier: what molecular biology and genetics tell us about the functions of oral mucosal and epidermal tissues. J Dent Educ 66(4):564–574PubMed
62.
Proksch E, Brandner JM, Jensen JM (2008) The skin: an indispensable barrier. Exp Dermatol 17(12):1063–1072PubMedCrossRef
63.
Reddy SP, Vuong H, Adiseshaiah P (2003) Interplay between proximal and distal promoter elements is required for squamous differentiation marker induction in the bronchial epithelium: role for ESE-1, Sp1, and AP-1 proteins. J Biol Chem 278(24):21378–21387. doi:10.​1074/​jbc.​M212258200 PubMedCrossRef
64.
Rinnerthaler M, Duschl J, Steinbacher P, Salzmann M, Bischof J, Schuller M, Wimmer H, Peer T, Bauer JW, Richter K (2013) Age-related changes in the composition of the cornified envelope in human skin. Exp Dermatol 22(5):329–335. doi:10.​1111/​exd.​12135 PubMedCrossRef
65.
Robinson PA, Marley JJ, High AS, Hume WJ (1994) Differential expression of protease inhibitor and small proline-rich protein genes between normal human oral tissue and odontogenic keratocysts. Arch Oral Biol 39(3):251–259PubMedCrossRef
66.
67.
68.
Silveira NJ, Varuzza L, Machado-Lima A, Lauretto MS, Pinheiro DG, Rodrigues RV, Severino P, Nobrega FG, Silva WA, Jr, de BPCA, Tajara EH (2008) Searching for molecular markers in head and neck squamous cell carcinomas (HNSCC) by statistical and bioinformatic analysis of larynx-derived SAGE libraries. BMC Med Genomics 1:56. doi:10.​1186/​1755-8794-1-56
69.
Song HJ, Poy G, Darwiche N, Lichti U, Kuroki T, Steinert PM, Kartasova T (1999) Mouse Sprr2 genes: a clustered family of genes showing differential expression in epithelial tissues. Genomics 55(1):28–42. doi:10.​1006/​geno1998.​5607 PubMedCrossRef
70.
Stamnaes J, Dorum S, Fleckenstein B, Aeschlimann D, Sollid LM (2010) Gluten T cell epitope targeting by TG3 and TG6; implications for dermatitis herpetiformis and gluten ataxia. Amino Acids 39(5):1183–1191. doi:10.​1007/​s00726-010-0554-y PubMedCrossRef
71.
Steinert PM, Kartasova T, Marekov LN (1998) Biochemical evidence that small proline-rich proteins and trichohyalin function in epithelia by modulation of the biomechanical properties of their cornified cell envelopes. J Biol Chem 273(19):11758–11769PubMedCrossRef
72.
Steinert PM, Marekov LN (1995) The proteins elafin, filaggrin, keratin intermediate filaments, loricrin, and small proline-rich proteins 1 and 2 are isodipeptide cross-linked components of the human epidermal cornified cell envelope. J Biol Chem 270(30):17702–17711PubMedCrossRef
73.
Steinert PM, Steven AC, Roop DR (1985) The molecular biology of intermediate filaments. Cell 42(2):411–420PubMedCrossRef
74.
Steinert PM, Wantz ML, Idler WW (1982) O-phosphoserine content of intermediate filament subunits. Biochemistry 21(1):177–183PubMedCrossRef
75.
Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S (2011) MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 28(10):2731–2739. doi:10.​1093/​molbev/​msr121 PubMedCrossRef
76.
77.
Tesfaigzi J, Wright PS, Oreffo V, An G, Wu R, Carlson DM (1993) A small proline-rich protein regulated by vitamin A in tracheal epithelial cells is induced in lung tumors. Am J Respir Cell Mol Biol 9(4):434–440. doi:10.​1165/​ajrcmb/​9.​4.​434 PubMedCrossRef
78.
79.
Tong L, Corrales RM, Chen Z, Villarreal AL, De Paiva CS, Beuerman R, Li DQ, Pflugfelder SC (2006) Expression and regulation of cornified envelope proteins in human corneal epithelium. Invest Ophthalmol Vis Sci 47(5):1938–1946. doi:10.​1167/​iovs.​05-1129 PubMedCrossRef
80.
81.
Vermeij WP, Florea BI, Isenia S, Alia A, Brouwer J, Backendorf C (2012) Proteomic Identification of in Vivo Interactors Reveals Novel Function of Skin Cornification Proteins. J Proteome Res. doi:10.​1021/​pr300310b PubMed
82.
83.
Zhang Y, Feng YB, Shen XM, Chen BS, Du XL, Luo ML, Cai Y, Han YL, Xu X, Zhan QM, Wang MR (2008) Exogenous expression of Esophagin/SPRR3 attenuates the tumorigenicity of esophageal squamous cell carcinoma cells via promoting apoptosis. Int J Cancer J Int du Cancer 122(2):260–266. doi:10.​1002/​ijc.​23104 CrossRef
84.
Zimmermann N, Doepker MP, Witte DP, Stringer KF, Fulkerson PC, Pope SM, Brandt EB, Mishra A, King NE, Nikolaidis NM, Wills-Karp M, Finkelman FD, Rothenberg ME (2005) Expression and regulation of small proline-rich protein 2 in allergic inflammation. Am J Respir Cell Mol Biol 32(5):428–435. doi:10.​1165/​rcmb.​2004-0269OC PubMedCrossRef
85.
Zinovyeva MV, Monastyrskaya GS, Kopantzev EP, Vinogradova TV, Kostina MB, Sass AV, Filyukova OB, Uspenskaya NY, Sukhikh GT, Sverdlov ED (2010) Identification of some human genes oppositely regulated during esophageal squamous cell carcinoma formation and human embryonic esophagus development. Dis Esophagus Off J Int Soc Dis Esophagus/ISDE 23(3):260–270. doi:10.​1111/​j.​1442-2050.​2009.​01008.​x CrossRef
86.
Zucchini C, Strippoli P, Rosati G, Del Governatore M, Milano E, Ugolini G, Solmi R, Mattei G, Caira A, Zanotti S, Carinci P, Valvassori L (2000) Expression analysis and mutational screening of the epithelium-specific ets gene-1 (ESE-1) in patients with squamous anal cancer. Int J Oncol 17(2):265–270PubMed
Metadata
Title
Study of small proline-rich proteins (SPRRs) in health and disease: a review of the literature
Authors
Fernanda Carregaro
Ana Carolina B. Stefanini
Tiago Henrique
Eloiza H. Tajara
Publication date
01-12-2013
Publisher
Springer Berlin Heidelberg
Published in
Archives of Dermatological Research / Issue 10/2013
Print ISSN: 0340-3696
Electronic ISSN: 1432-069X
DOI
https://doi.org/10.1007/s00403-013-1415-9

Other articles of this Issue 10/2013

Archives of Dermatological Research 10/2013 Go to the issue

Concise Communication

Viewpoint on handling anti-TNF failure in psoriasis

Original Paper

Psoriatic keratinocytes prime neutrophils for an overproduction of superoxide anions

Original Paper

PGP 9.5 neuronal marker may differentiate immunohistochemically HIV-related from Mediterranean and immunosuppression-associated Kaposi’s sarcoma

Original Paper

Psoriasis, electrocardiographic characteristics, and incidence of atrial fibrillation

Original Paper

Barriers to the prescription of systemic therapies for moderate-to-severe psoriasis––a multinational cross-sectional study

Original Paper

Association of HLA alleles and haplotypes with vitiligo in Moroccan patients: a case–control study