Inflammatory genomics.As a University of London For most practical purposes, ranging from admission of students to negotiating funding from the government, the 19 constituent colleges are treated as individual universities. Within the university federation they are known as Recognised Bodies undergraduate beginning a module on pathology, I remember Professor Frank Fairweather opening his lecture by pointing to a large boil on his forehead as an example of acute inflammation acute inflammation n. Inflammation having a rapid onset and coming to a crisis relatively quickly, with a clear and distinct termination. . He then proceeded to describe the gross pathological characteristics of acute inflammation: weal weal n. A ridge on the flesh raised by a blow; a welt. , brief blood vessel constriction constriction /con·stric·tion/ (kon-strik´shun) 1. a narrowing or compression of a part; a stricture.constric´tive 2. a diminution in range of thinking or feeling, associated with diminished spontaneity. , followed by blood vessel dilation dilation /di·la·tion/ (di-la´shun) 1. the act of dilating or stretching. 2. dilatation. di·la·tion n. 1. and associated redness. Such was my introduction to the most common consequence of tissue damage--and contributor to disease pathogenesis--inflammation. Inflammation is mediated by chemical activators, collectively known as chemokines, secreted in the area of the tissue damage. Chemotactant proteins are expressed on the endothelial endothelial /en·do·the·li·al/ (-the´le-al) pertaining to or made up of endothelium. Endothelial A layer of cells that lines the inside of certain body cavities, for example, blood vessels. cell of the dilated dilated a state of dilatation. dilated cardiomyopathy see congestive cardiomyopathy. dilated pupil syndrome see feline dysautonomia (Key-Gaskell syndrome). blood vessels that serve as recruitment factors for lymphocytes. Blood vessel dilation causes a decrease in local blood flow, and activated neutrophils neutrophils (ner·ō·trōˑ·filz), n.pl white blood cells with cytoplasmic granules that consume harmful bacteria, fungi, and other foreign materials. , attracted by the chemokines, attach to the chemotactant proteins, squeeze themselves through the endothelial cell walls of the locally dilated blood vessels, and follow the scent of the chemokines to the site of damage (for additional information, see Schmidt 2005). Toxicogenomics has led to an additional description of inflammation based on the differential expression of genes associated with the inflammatory process. One of the first toxicogenomics reports published was that of the differential expression of genes in response to lipopolysaccharide-induced inflammation (Heller et al. 1997). Several reports now link the expression of certain genes, in particular the attachment genes Vcam1 and Icam1, to, for example, inflammation in the liver (Davies et al. 2005; Gant et al. 2003; Huang et al. 2004; Jiang et al. 2004). To date, a quantitative fingerprint of gene expression associated with inflammation has not been defined. In the GeneOntology (GO) database (GO 2005), genes associated with, but not necessarily quantitative for, inflammation are identified in biological processes as "inflammatory response." Under inflammatory response in the GO, there are 371 genes listed for Homo sapiens. Tumor necrosis factor-[alpha] (TNF-[alpha]) is included among these 362 genes, but interleukin 6 (IL-6) is not, although IL-6 is used as a plasma biomarker of inflammation (Curran et al. 2005). Similarly, a recent study in the liver has associated three genes PGS PGS Pages PGS Petroleum Geo-Services PGS Planning Gain Supplement (UK land tax) PGS Parallel Giant Slalom (skiing and snowboarding competitions) PGS Plant Genetic Systems (Belgium) 6 (pregnancy-specific [beta]-1-glycoprotein), GSTM GSTM Gatespace Telematics (supplier of systems and components for telematics) GSTM General System Test Module 4/M2 (glutathione S-transferase mu 4 and mu 2), and OAT (ornithine ornithine /or·ni·thine/ (or´ni-then) an amino acid obtained from arginine by splitting of urea; it is an intermediate in urea biosynthesis. or·ni·thine n. Abbr. ketoacid aminotransferase aminotransferase /ami·no·trans·fer·ase/ (-trans´fer-as) transaminase. a·mi·no·trans·fer·ase n. ) with inflammation in human liver (Younossi et al. 2005); these genes, like IL-6, are not categorized as inflammation genes in the GO. Thus, not all genes associated with inflammation are defined as such in GO, and none are quantitatively associated. Therefore, to provide a repository of data for making future associations, we need a maintained sub-database of differential gene expressions that are quantitatively associated with measured pathological responses. Such quantitative association of gene expression with altered pathology, known as "phenotypic anchoring" (Moggs 2005; Moggs et al. 2004; Paules 2003; Waters and Fostel 2004), includes measurement of both gene expression and degree of pathological change. Few data sets in Gene Expression Omnibus (GEO 2005) or ArrayExpress (European Bioinformatics Institute The European Bioinformatics Institute (EBI) is a centre for research and services in bioinformatics, and is part of European Molecular Biology Laboratory (EMBL). It is a pioneer of novel and developmental bioinformatics research. 2005) contain a histopathological quantitation of inflammation of sufficient quality to allow retrospective phenotypic anchoring of differential gene expression at the present time. More data sets need to include an actual measure of pathological change. In particular, toxicogenomic data should be collected before and during the onset of measured pathological change. However, before embarking on the development of a phenotypically anchored database of signature gene expression, we must ask the following question: Does toxicogenomics have any advantage over histopathology his·to·pa·thol·o·gy n. The science concerned with the cytologic and histologic structure of abnormal or diseased tissue. Histopathology The study of diseased tissues at a minute (microscopic) level. in the assessment and characterization of pathological change? For inflammation, as for other pathologies, the answer to this question depends on whether toxicogenomics can a) detect inflammation before it becomes histopathologically observable, b) provide a more quantitative assessment of its severity, and c) distinguish between the acute and chronic forms and other pathologies. If we are referring to the most informative genes, the answer to these questions is probably "yes," but more data is necessary to derive conclusive answers. Thus, the generation of more gene expression data is necessary in targeted pathologies such as inflammation, and a phenotypically anchored database should be targeted to specific common pathologies in the first instance so critical data masses of gene expression data can be collected. In the early development of microarrays and their application in toxicology, some predictions were made that histopathologists would become an endangered species, made redundant by the new technology. This has not happened, and even the reverse could be argued to have occurred; toxicogenomics has proven so challenging for interpretation that there has been a retreat into the "gold standard" methods of analysis (Albertini 2005). Toxicogenomics has the potential to inform and append histopathological assessment, injecting a degree of instrumental precision into the analysis and assisting in the differentiation of difficult-to-discern lesions (Gant 2002, 2003; Lakhani and Ashworth 2001). Although there is still much work to be done, toxicogenomics will gradually gain a central role in the toxicologists' armory--as long as expectations are reasonable, quality is good, interpretation is expert, and conclusions are balanced. Genomics has much to offer in pathological assessment, but its application should be collaborative, not inflammatory. REFERENCES Albertini S. 2005. Toxicogenomics in the pharmaceutical industry: hollow promises or real benefit? Mut Res 575:102-115. Curran JE, Jowett JB, Elliott KS, Gao Y, Gluschenko K, Wang J, et al. 2005. Genetic variation in selenoprotein S influences inflammatory response. Nat Genet genet: see civet. 37:1234-1241. Davies R, Schuurman A, Barker CR, Clothier B, Chernova T, Higginson FM, et al. 2005. Hepatic gene expression in protoporphyic Fech mice is associated with cholestatic injury but not a marked depletion of the heme regulatory pool. Am J Pathol 166:1041-1053. European Bioinformatics Institute. 2005. ArreyExpress. Available: http://www.ebi.ac.uk/ arrayexpress/[accessed 7 November 2005]. Gant TW. 2003. Application of toxicogenomics in drug development. Drug News Perspect 16:217-221. Gant TW, Baus PR, Clothier B, Riley J, Davies R, Judah DJ, et al. 2003. Gene expression profiles associated with inflammation, fibrosis, and cholestasis Cholestasis Definition Cholestasis is a condition caused by rapidly developing (acute) or long-term (chronic) interruption in the excretion of bile (a digestive fluid that helps the body process fat). in mouse liver after Griseofulvin griseofulvin /gris·eo·ful·vin/ (gris?e-o-ful´vin) an antibiotic produced by Penicillium griseofulvum ; used as an antifungal in dermatophytoses. gris·e·o·ful·vin n. . Environ Health Perspect 111:847-853. GEO. 2005. Gene Expression Omnibus. Available: http://www.ncbi.nlm.nih.gov/geo/ [accessed 7 November 2005]. GO. 2005. GeneOntolegy, Biological Process. Available: http://www.geneontology.org/ ontology/process.ontology ontology: see metaphysics. ontology Theory of being as such. It was originally called “first philosophy” by Aristotle. In the 18th century Christian Wolff contrasted ontology, or general metaphysics, with special metaphysical theories [accessed 7 November 2005]. Heller R, Schena M, Chai A, Shalon D, Bedilion T, Glilmore J, et al. 1997. Discovery and analysis of inflammatory disease-related genes using eDNA microarrays. Proc Natl Acad Sci USA 94:2150-2155. Huang Q, Jin X, Galliard gal·liard n. 1. A spirited dance popular in France in the 16th and 17th centuries. 2. The triple-time music for this dance. adj. Archaic Spirited; lively; gay. ET, Knight BL, Pack FD, Stoltz JH, et al. 2004. Gene expression profiling reveals multiple toxicity endpoints induced by hepatotoxicants. Mutat Res 549:147-168. Jiang Y, Kang YJ, Liu J, Waalkes M. 2004. Changes in the gene expression associated with carbon tetrachloride-induced liver fibrosis persist after cessation of dosing in mice. Toxicol Sci 79:404-410. Lakhani S, Ashworth A. 2001. Microarray and histopathological analysis of turnouts: the future end the past? Nat Rev 1:151-157. Moggs J. 2005. Molecular responses to xenoestorgens: mechanistic insights from toxicogenomics. Toxicology 213:177-193. Moggs J, Tinwell H, Spurway T, Chang HS, Pate I, Lim F, et al. 2004. Phenotypic anchoring of gene expression changes during estrogen-induced uterine growth. Environ Health Perspect 112:1589-1606. Paules R. Phenotypic anchoring:linking cause and effect. 2003. Environ Health Perspect 111:A338-A339. Schmidt CW. Critical care: applying genomics to inflammation outcomes. Environ Health Perspect 113:A816-A821. Waters MD, Fostel JM. 2004. Toxicogenomics and systems toxicology: aims and prospects. Nat Rev Genet 5:936-948. Younossi Z, Baranova A, Ziegler K, Del Biacco L, Schlauch K, Born T, et al. 2005. A genomic and preteomic study of the spectrum nonalcoholic non·al·co·hol·ic adj. A beverage usually containing less than 0.5 percent alcohol by volume. fatty liver disease. Hepatology 42:665-674. Timothy W. Gant Medical Research Council Toxicology Unit University of Leicester History The University was founded as Leicestershire and Rutland College in 1918. The site for the University was donated by a local textile manufacturer, Thomas Fielding Johnson, in order to create a living memorial for those who lost their lives in World War I. Leicester, United Kingdom E-mail: twgl@le.ac.uk Timothy W. Gant is head of the Systems Toxicology group at the Medical Research Council Toxicology Unit, United Kingdom. The primary interests of the group are the application of genomics in molecular toxicology with emphasis on the genetic basis of susceptibility and resistance to toxicity. The author declares he has no competing financial interests. |
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