1468C>T, R490W 550delA, T184RfsX36 4 598-612del, F200_L204del 550delA, T184RfsX36 3 2314-2317del, D772delK773NfsX3 245C>T, P82L 2 550delA, T184RfsX36 245C>T, P82L 1 MUTACE DETEKOVANÁ NA ALELE 2 MUTACE DETEKOVANÁ NA ALELE 1 PACIENT mRNA: homozygotní výskyt missense mutace nebo in-frame delece DNA: heterozygotní výskyt missense mutace nebo in-frame delece + detekce frame-shift delece ® degradace mRNA nesoucí frame-shift deleci ® mechanismem nonsense mediated mRNA decay Detekce mutací v genu CAPN3 – na úrovni mRNA a DNA nfig003 • RNA-polymerase mediated transcription. • Packaging of mRNA into mRNP begins almost immediately with the initiation of transcription, with addition of the m7GpppG cap. • Intron splicing from the pre-mRNA can also begin before transcription is complete and results in the deposition of the exon-junction complex (EJC). • Upon transcriptional termination, the 3′ end is processed resulting in the addition of the poly(A) tail. • Nuclear export of the mRNA is a regulated process which in metazoans involves the EJC. • In the cytoplasm: the mRNA undergoes a pioneer round of translation which removes many of the proteins bound to the mRNA in the nucleus and these proteins shuttle back into the nucleus. In mammalian cells, several surveillance mechanisms control the mRNA during the pioneer round of translation. If the surveillance decay mechanisms are not activated, then the message is either translated into protein, stored for later translation, or degraded. Message degradation utilizes both the 5′-to-3′ and 3′-to-5′ exosome-mediated decay pathways. • The process of eukaryotic gene expression involves a number of interlinked steps - transcription, capping, polyadenylation, splicing, translation, and mRNA degradation. Wiley Interdisciplinary Reviews – RNA,Vol. 1, Is. 1, 2010 • NMD (nonsense-mediated mRNA decay) is quality control mechanism preventing the production of potentially deleterious C-terminally truncated proteins translated from PTC-containing (protein termination codons) mRNAs. • Nonsense mutations and frame-shifting deletions/insertions generate PTCs. It is estimated that 30% of known disease-associated mutations are due to PTC-containing mRNAs. • At the RNA level, errors in transcription and pre-mRNA splicing also generate mRNAs with PTCs that are substrates for NMD. 95% of multiexon human genes are alternatively spliced - the average number of alternatively spliced mRNA isoforms per gene is approximately 3.5. Using bioinformatics approaches, it was proposed that about one-third of the alternatively spliced human mRNAs contain a PTC. NMD Model for NMD In mammals, mRNA is targeted for NMD once mRNA has been generated by pre-mRNA processing and exported from the nucleus to the cytoplasm. During pre-mRNA processing, splicing results in the deposition of an EJC of proteins upstream of mRNA exon–exon junctions. EJC components include eIF4AIII, Y14, MAGOH, BTZ and many other proteins. In the cytoplasm, UPF3 recruits UPF2; the pioneer round of translation; termination of translation during the pioneer round of translation at a premature termination codon (PTC); binding of the SURF complex, phosphorylation of UPF1; 43S preinitiation complex binding to the AUG translation initiation codon so as to prevent 60S ribosomal subunit joining. Phospho-UPF1 also promotes NMD by recruiting mRNA degradative activities. Notably, mammalian-cell NMD can also target mRNAs that have not undergone splicing downstream of a PTC. Nucleolytic activities are indicated by the red irregular hexagons. PABP, poly(A)-binding protein, where darkershapes specify the largely nuclear PABPN1 and lighter shapes denote the largely cytoplasmic PABPC1; AUG, translation initiation codon; STOP, normal termination codon. Biochemical Society Transactions (2009) Volume 37, part 6 • NMD zhoršuje klinická projevy - DMD/BMD - nonsense a frame-shift mutace blízko 3´-konce DMD genu mohou mí za následek rozdílné fenotypové projevy v závislosti na NMD. Phenotype Localisation (exon) Mutation detected at cDNA level Mutation detected at DNA level Mutation at protein level Immunohistochemical labelling using antibodies DYS1,2,3 DMD 70 c.10094C>A Not performed p.S3365X Negative DMD 70 c.10108C>T Not performed p.R3370X Negative DMD 70 c.10141C>T Not performed p.R3381X Negative BMD 74 Not performed c.10489delT p.S3497PfsX2 Not performed • NMD zmírňuje klinické projevy - OSTEOGENESIS IMPERFECTA NMD + NMD - NMD ovlivňuje klinickou závažnost některých chorob: 11_collagenos_c_osphoto_400 11_collagenos_d_osphoto2_400 Brittle Bone Disease. Image Credit: www.jbmronline.org Osteogenesis imperfecta: • Skupina dědičných poruch kolagenu typu I -hlavní strukturní protein kostí a jiných vazivových tkání. • Mutace v genu COL1A1 a COL1A2 - náchylnost ke lomivosti kostí, deformitám skeletu (pozoruhodný rozsah klinických příznaků (od letální formy po jen mírné zvýšení frekvence zlomenin). • Missense mutace asociované s genem COL1A jsou příklady dominantně-negativních alel ......... ruší konformaci kolagenových podjednotek a jsou spojeny s těžkými klinickými fenotypy osteogenesis imperfecta typu II–IV. • PTC mutace vyvolávající NMD jsou spojeny s mírnějšími klinickými fenotypy osteogenesis imperfecta typu I. • Kolagen typu I – kolagen typu I je tvořen ze dvou řetězců prokolagenu α1 (gen COL1A1) a jednoho prokolagenu α2 (COL1A2). Collagen_structure.gif Table 1. 1468C>T, R490W 550delA, T184RfsX36 4 598-612del, F200_L204del 550delA, T184RfsX36 3 2314-2317del, D772delK773NfsX3 245C>T, P82L 2 550delA, T184RfsX36 245C>T, P82L 1 MUTACE DETEKOVANÁ NA ALELE 2 MUTACE DETEKOVANÁ NA ALELE 1 PACIENT mRNA: homozygotní výskyt missense mutace nebo in-frame delece DNA: heterozygotní výskyt missense mutace nebo in-frame delece + detekce frame-shift delece ® degradace mRNA nesoucí frame-shift deleci ® mechanismem nonsense mediated mRNA decay Detekce mutací v genu CAPN3 – na úrovni mRNA a DNA Stanovení relativního množství mRNA genu pro kalpain-3 Relativní množství mRNA v závislosti na typu mutace: non-PTC/non-PTC: 0,97 non-PTC/PTC: 0,37 PTC/PTC: 0,02 Pacient 1-4: non-PTC/non-PTC Pacient: 5-9: non-PTC/PTC Pacient 10-12: PTC/PTC