Genetics in dentistry Practices spring 2013 Mgr. Petra Bořilová Linhartová peta.linhartova@gmail.com •multifactorial infectious immune-inflammatory disease •initiated by specific bacteria, predominantely gram-negative anaerobes that activate tissue mechanisms that produce series of inflammatory and immunologic changes leading to destruction of connective tissue and bone. periodontal_disease Periodontitis •destruction of periodont: • - products of bacteria • (toxins, enzymes, LPS,...) • - subtances incident by inflammation • (pro-inflammatory TNFa, IL-1 a, b, R) • • Periodontitis Periodontitis •Candidate genes •Genes for immunoregulatory factors - interleukins (IL-1, IL-4, IL-6, IL-8, IL-10, IL-18 and others) • •Metaloproteinases (MMP1, MMP3, MMP9, MMP12, and more) • •Products of bone remodelation (VDR, RAGE, SFTPD and others) Cytokiny •small cell-signaling protein molecules •secreted by numerous cells •each cytokine has a matching cell-surface receptor •signaling molecules used extensively in intercellular communication •involved in control of proliferation, differentiation and function of IS cells •involved in inflammatory processes and neuronal, hematopoietic and embryonic development of an organism •pleiotropic Interleukin-1 •proinflammatory cytokine •highly elevated in response to bacterial biofilms and is a potential risk factor for periodontal diseases •produced mainly by activated macrophages, as well as neutrophils, epithelial cells, and endothelial cells •IL-1 family consists of three homologous proteins IL-1alpha, IL-1beta and IL-1 receptor antagonist •stimulate bone resorption •regulate proliferation of gingival and ligamental fibroblasts • • • Interleukin-1 Beta molecule Interleukin-1 •The total amounts of IL- 1α and IL-1β (proinflammatrory cytokines) and the IL-1/IL-1RA tratil, have been found to correlate with alveolar bone loss in periodontitis. • • Interleukin-1 Beta molecule Interleukin-1 •Genes of IL-1 •The genes for IL-1 are located on the long arm of human chromosome 2 (2q13-q21). •Some functional SNPs in the IL-1 gene cluster: at position -889 (IL-1A), +3953 (IL-1B) and an 86bp VNTR in the intron 2 of the IL-1RN polymorphism have been described and associated with cytokine production and with several immune-inflammatory diseases. • Interleukin-1 Beta molecule Salivary biomarkers of existing periodontal disease: a cross-sectional study. •J Am Dent Assoc. 2006 Mar;137(3):322-9. •Miller CS, King CP Jr, Langub MC, Kryscio RJ, Thomas MV. • •BACKGROUND: •The authors conducted a study to determine if salivary biomarkers specific for three aspects of periodontitis--inflammation, collagen degradation and bone turnover--correlate with clinica features of periodontal disease. •METHODS: •The relationship between periodontal disease and the levels of interleukin-1 beta (IL-1beta), matrix metalloproteinase (MMP)-8, and osteoprotegerin (OPG) in whole saliva of 57 adults (28 "case" subjects with moderate-to-severe periodontal disease and 29 healthy control subjects) was examined in a case-control trial. •RESULTS: •Mean levels of IL-1beta and MMP-8 in saliva were significantly higher in case subjects than in controls. Both analytes correlated with periodontal indexes, whereas, after adjustment for confounders, OPG did not. Elevated salivary levels of MMP-8 or IL-1beta (more than two standard deviations above the mean of the controls) significantly increased the risk of periodontal disease (odds ratios in the 11.3-15.4 range). Combined elevated salivary levels of MMP-8 and IL-1beta increased the risk of experiencing periodontal disease 45-fold, and elevations in all three biomarkers correlated with individual clinical parameters indicative of periodontal disease. •CONCLUSION: •Salivary levels of MMP-8 and IL-1beta appear to serve as biomarkers of periodontitis. •CLINICAL IMPLICATIONS: •Qualitative changes in the composition of salivary biomarkers could have significance in the diagnosis and treatment of periodontal disease. • Tests •Microbial pathogenes •Association of IL-1 genotype with periodontitis Image-01a IL-1 KIT PArodontitis GenoType™ PST test od Dentalyse™ GenoType PST® test od HAIN Diagnostics ™ Practices •Periodontitis - DNA diagnostics of gene polymorphisms in interleukin-1 (IL-1) • •Detection of SNP in IL-1β +3953 C/T • 1.Polymerase chain reaction (PCR) 2.Restriction enzyme analysis (RA) 3.Agarose gel electrophoresis (ELFO) PCR •developed by Kary B. Mullis in 1983 (1993 NP) • •used to amplify a specific region of a DNA strand •in vitro •The method relies on thermal cycling, consisting of cycles of repeated heating and cooling of the reaction for DNA melting and enzymatic replication of the DNA •Primers (short oligonucleotides sequences) are complementary to the target region along with a DNA polymerase • •The result is 2n (n = number of cycles) copies of the sequence of DNA. • PCR –Reaction mixture •Magnesium chloride: 0.5-2.5 mM • •Buffer: pH 8.3-8.8 • •dNTPs: 20-200 µM • •Primers: 0.1-0.5 µM • •DNA Polymerase: 1-2.5 Units • •Target DNA: 50 ng µl-1 • – PCR •Programme in thermocycler 1)95ºC 2‘ inicial denaturation 2)95ºC 30‘‘denaturation 3)40-72ºC 20‘‘ annealing 4)72ºC 30‘‘ elongation 5)72ºC 5‘ final elongation 6)4ºC 10‘ cooling –steps 2 – 4 repeat 30x or more – – Restriction enzyme analysis •DNA analysis method – specific digest of DNA by restriction enzymes (RE) • •RE •bacterial enzymes - EcoRI (E.coli) •recognise of specific restriction site (palindromic) • 5´-CCT GßAATTC AGG-3´ • 3´-GGA CTTAAÝG TCC-5´ •phosphodiester bonds •specific temperature for optimal digestion • • Detection of SNP rs1143634 IL-1β +3953C/T •PCR •use gloves and work in PCR box •prepare appropriate number of plastic microtubes and mark them with sample codes •prepare PCR mastermix by mixing aliquots shown in table (multiplied volume by number of samples + reserve) •mix PCR mastermix well and shortly centrifuge •pipette PCR mastermix into each microtube •pipette DNA sample into appropriate PCR microtube (don´t forget change tip for each DNA samples) •pipette drop of mineral oil into each microtube •cover lids and place all microtubes into thermocycler •run programme • Detection of SNP rs1143634 IL-1β +3953C/T •PCR – reaction mixture • • • • • • • • • • • • •Primers •IL-1BF CTC AGG TGT CCT CGA AGA AAT CAA A – forward (Ta = 58,79°C) •IL-1BR GCT TTT TTG CTG TGA GTC CCG – reverse (Ta = 58,80°C) • • Master Mix (MM) solution Per 1 sample (µl) Per… samples (µl) PCR water 12,5 DYNEX buffer 2,5 MgCl2 (25 mM) 4,0 Primer F Primer R 1,25 1,25 dNTPs 0,5 Taq polymerase (1Uµl-1) 1,0 23,0 µl MM + 2,0 µl template DNA (50 ngµl-1) + 1 drop of mineral oil per 1 sample Detection of SNP rs1143634 IL-1β +3953C/T •PCR •thermocycler Sensoquest labcycler (Schoeller) • •1. 95°C 5 minutes •2. 95°C 1 minute •3. 60°C 1 minute •4. 72°C 1 minute step 2.- 4. – cycling 35x •5. 72°C 7 minutes •6. 10°C 10 minutes • • Detection of SNP rs1143634 IL-1β +3953C/T •RA •prepare appropriate number of plastic microtubes and mark them with sample codes •prepare RA mastermix by mixing aliquots shown in table (multiplied volume by number of samples + reserve) •mix RA mastermix well and shortly centrifuge •pipette RA mastermix into each microtube •Pipette amplicon into appropriate RA microtube •pipette drop of mineral oil into each microtube •cover lids and place all microtubes into thermostate •incubation for 4 hours on 65°C • • Detection of SNP rs1143634 IL-1β +3953C/T •RA – reaction mixture • • • • • • • • •TaqI enzyme • 5´-TßCGA- 3´ • 3´-AGCÝT- 5´ •Products size •CC 99 bp + 77 bp •CT 176 bp + 99 bp + 77 bp •TT 176 bp • Master Mix (MM) solution Per 1 sample (µl) Per… samples (µl) RA water 1,0 TaqI buffer 1,7 TaqI enzyme 0,3 3,0 µl MM + 15,0 µl amplicon + 1 drop of mineral oil per 1 sample SNP rs1143634 IL-1β +3953C/T •Sequention of IL-1beta gene •TAGTGGAAAC TATTCTTAAA GAAGATCTTG ATGGCTACTG ACATTTGCAA CTCCCTCACT CTTTCTCAGG GGCCTTTCAC TTACATTGTC ACCAGAGGTT CGTAACCTCC CTGTGGGCTA GTGTTATGAC CATCACCATT TTACCTAAGT AGCTCTGTTG CTCGGCCACA GTGAGCAGTA ATAGACCTGA AGCTGGAACC CATGTCTAAT AGTGTCAGGT CCAGTGTTCT TAGCCACCCC ACTCCCAGCT TCATCCCTAC TGGTGTTGTC ATCAGACTTT GACCGTATAT GCTCAGGTGT CCTCCAAGAA ATCAAATTTT GCCGCCTCGC CTCACGAGGC CTGCCCTTCT GATTTTATAC CTAAACAACA TGTGCTCCAC ATTTCAGAAC CTATCTTCTT •Y (C/T) •GACACATGGG ATAACGAGGC TTATGTGCAC GATGCACCTG TACGATCACT GAACTGCACG CTCCGGGACT CACAGCAAAA AAGCTTGGTG ATGTCTGGTC CATATGAACT GAAAGCTCTC CACCTCCAGG GACAGGATAT GGAGCAACAA GGTAAATGGA AACATCCTGG TTTCCCTGCC TGGCCTCCTG GCAGCTTGCT AATTCTCCAT GTTTTAAACA AAGTAGAAAG TTAATTTAAG GCAAATGATC AACACAAGTG AAAAAAAATA TTAAAAAGGA ATATACAAAC TTTGGTCCTA GAAATGGCAC ATTTGATTGC ACTGGCCAGT GCATTTGTTA ACAGGAGTGT GACCCTGAGA AATTAGACGG CTCAAGCACT CCCAGGACCA TGTCCACCCA • •IL-1BF CTC AGG TGT CCT CGA AGA AAT CAA A •IL-1BR GCT TTT TTG CTG TGA GTC CCG • • • • Detection of SNP rs1143634 IL-1β +3953C/T •ELFO •technique used for the separation of DNA, RNA, or protein molecules using an electric field applied to a gel matrix •Ethidium bromide (EtBr) an intercalating agent is commonly used as a fluorescent tag •Fragments of linear DNA migrate through agarose gels with a mobility that is inversely proportional to the log10 of their molecular weight •Visualization – UV lights • • http://www.madsci.org/posts/archives/1999-02/919869466.Mb.1.jpg Detection of SNP rs1143634 IL-1β +3953C/T •ELFO •For a 3,0 % agarose gel, weigh out 4,5 g of agarose into a flask and add 150 ml of 1x TBE. •Heat solution in a microwave or boiling water bath until agarose is completely dissolved. •Allow to cool in a water bath set at 50 – 55°C for 10 min. •Prepare gel casting tray by sealing ends of gel chamber with tape or appropriate casting system. Place appropriate number of combs in gel tray. • • http://img.guidechem.com/casimg/26873-85-8.gif Ficoll Detection of SNP rs1143634 IL-1β +3953C/T •ELFO •Add 15,0 µl of EtBr to cooled gel and pour into gel tray. Allow to cool for 15-30 min at room temperature. Gels can also be placed in a cold space and used the following day. •Remove comb(s), place in electrophoresis chamber and cover with buffer (TBE as used previously). •Add loading buffer to samples. As a guideline, add 2,0 µl of 10x Loading Buffer to a 15,0 µl PCR/DNA solution. •Load DNA and standard (Ladder - Gene Ruler Fermentas 50bp) onto gel. •Electrophorese at 90 V for 30 minutes. •Visualization of DNA bands using UV lightbox or gel imaging system. • • overview Genotype analysis results • PCR VNTR IL-1RN intron 2 86 bp repetice PCR RA IL-1α -889 C/T T 99 bp C 16 bp + 83 bp • • • 1.4 repetice – 412 bp 2.2 repetice – 240 bp 3.3 repetice – 326 bp 4.5 repetic – 498 bp 5.6 repetic – 584 bp * * IL-1β +3953 C/T exon 5 T 182 bp +12 bp C 97 bp + 85 bp +12 bp st 12 11 11 22 24 E:\LIH\8-3-2010 IL1a a IL1b RFLP dve DNA Peta a Bara B.jpg CT CC st CT CC