Functional and structural analysis of five mutations identified in methylmalonic aciduria cbIB type

ATP:cob(I)alamin adenosyltransferase (ATR, E.C.2.5.1.17) converts reduced cob(I)alamin to the adenosylcobalamin cofactor. Mutations in the MMAB gene encoding ATR are responsible for the cblB type methylmalonic aciduria. Here we report the functional analysis of five cblB mutations to determine the underlying molecular basis of the dysfunction. The transcriptional profile along with minigenes analysis revealed that c.584G>A, c.349-1G>C, and c.290G>A affect the splicing process. Wild-type ATR and the p.I96T (c.287T>C) and p.R191W (c.571C>T) mutant proteins were expressed in a prokaryote and a eukaryotic expression systems. The p.I96T protein was enzymatically active with a K M for ATP and K D for cob(I)alamin similar to wild-type enzyme, but exhibited a 40% reduction in specific activity. Both p.I96T and p.R191W mutant proteins are less stable than the wild-type protein, with increased stability when expressed under permissive folding conditions. Analysis of the oligomeric state of both mutants showed a structural defect for p.I96T and also a significant impact on the amount of recovered mutant protein that was more pronounced for p.R191W that, along with the structural analysis, suggest they might be misfolded. These results could serve as a basis for the implementation of pharmacological therapies aimed at increasing the residual activity of this type of mutations. Hum Mutat 31:1033–1042, 2010. © 2010 Wiley-Liss, Inc.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78057/1/21307_ftp.pd

Combining targeted panel-based resequencing and copy-number variation analysis for the diagnosis of inherited syndromic retinopathies and associated ciliopathies

Inherited syndromic retinopathies are a highly heterogeneous group of diseases that involve retinal anomalies and systemic manifestations. They include retinal ciliopathies, other well-defined clinical syndromes presenting with retinal alterations and cases of non-specific multisystemic diseases. The heterogeneity of these conditions makes molecular and clinical characterization of patients challenging in daily clinical practice. We explored the capacity of targeted resequencing and copy-number variation analysis to improve diagnosis of a heterogeneous cohort of 47 patients mainly comprising atypical cases that did not clearly fit a specific clinical diagnosis. Thirty-three likely pathogenic variants were identified in 18 genes (ABCC6, ALMS1, BBS1, BBS2, BBS12, CEP41, CEP290, IFT172, IFT27, MKKS, MYO7A, OTX2, PDZD7, PEX1, RPGRIP1, USH2A, VPS13B, and WDPCP). Molecular findings and additional clinical reassessments made it possible to accurately characterize 14 probands (30% of the total). Notably, clinical refinement of complex phenotypes was achieved in 4 cases, including 2 de novo OTX2-related syndromes, a novel phenotypic association for the ciliary CEP41 gene, and the co-existence of biallelic USH2A variants and a Koolen-de-Vries syndrome–related 17q21.31 microdeletion. We demonstrate that combining next-generation sequencing and CNV analysis is a comprehensive and useful approach to unravel the extensive phenotypic and genotypic complexity of inherited syndromic retinopathiesFEDER (Fondo Europeo de Desarrollo Regional) | Ref. PI016/00425Instituto de Salud Carlos III | Ref. PT13/0010/001

Feasibility of nonsense mutation readthrough as a novel therapeutical approach in propionic acidemia

Aminoglycosides and other compounds can promote premature termination codon (PTC) readthrough constituting a potential therapy for patients with nonsense mutations. In a cohort of 190 propionic acidemia (PA) patients, we have identified 12 different nonsense mutations, six of them novel, accounting for 10% of the mutant alleles. Using an in vitro system, we establish the proof-ofprinciple that nonsense mutations in the PCCA and PCCB genes encoding both subunits of the propionyl-CoA carboxylase (PCC) enzyme can be partially suppressed by aminoglycosides, with different efficiencies depending on the sequence context. To correct the metabolic defect, the amino acid incorporated at the PTC should support protein function, and this has been evaluated in silico and by in vitro expression analysis of the predicted missense changes, most of which retain partial activity, confirming the feasibility of the approach. In patients' fibroblasts cultured with readthrough drugs, we observe a fourfold to 50-fold increase in the PCC activity, reaching up to 10-15% level of treated control cells. The ability to partially correct nonsense PCCA and PCCB alleles represents a potential therapy or supplementary treatment for a number of propionic acidemia (PA) patients, encouraging further clinical trials with readthrough drugs without toxic effects such as PTC124 or other newly developed compounds. © 2012 Wiley Periodicals, Inc.Ministerio de Ciencia e Innovación ; Centro de Investigación Biomédica en Red de Enfermedades Raras ; Fundación Ramón ArecesPeer Reviewe

Propionic and Methylmalonic Acidemia: Antisense Therapeutics for Intronic Variations Causing Aberrantly Spliced Messenger RNA

We describe the use of antisense morpholino oligonucleotides (AMOs) to restore normal splicing caused by intronic molecular defects identified in methylmalonic acidemia (MMA) and propionic acidemia (PA). The three new point mutations described in deep intronic regions increase the splicing scores of pseudoexons or generate consensus binding motifs for splicing factors, such as SRp40, which favor the intronic inclusions in MUT (r.1957ins76), PCCA (r.1284ins84), or PCCB (r.654ins72) messenger RNAs (mRNAs). Experimental confirmation that these changes are pathogenic and cause the activation of the pseudoexons was obtained by use of minigenes. AMOs were targeted to the 5′ or 3′ cryptic splice sites to block access of the splicing machinery to the pseudoexonic regions in the pre-mRNA. Using this antisense therapeutics, we have obtained correctly spliced mRNA that was effectively translated, and propionyl coenzyme A (CoA) carboxylase (PCC) or methylmalonylCoA mutase (MCM) activities were rescued in patients’ fibroblasts. The effect of AMOs was sequence and dose dependent. In the affected patient with MUT mutation, close to 100% of MCM activity, measured by incorporation of 14C-propionate, was obtained after 48 h, and correctly spliced MUT mRNA was still detected 15 d after treatment. In the PCCA-mutated and PCCB-mutated cell lines, 100% of PCC activity was measured after 72 h of AMO delivery, and the presence of biotinylated PCCA protein was detected by western blot in treated PCCA-deficient cells. Our results demonstrate that the aberrant inclusions of the intronic sequences are disease-causing mutations in these patients. These findings provide a new therapeutic strategy in these genetic disorders, potentially applicable to a large number of cases with deep intronic changes that, at the moment, remain undetected by standard mutation-detection techniques

The molecular landscape of propionic acidemia and methylmalonic aciduria in Latin America

Abstract In this work, we review the clinical and genetic data in 14 Latin American propionic acidemia (PA) and 15 methylmalonic aciduria (MMAuria) patients. In the PA patients, we have identified four different changes in the PCCA gene, including one novel one (c.414+5G>A) affecting the splicing process. The PCCB mutational spectrum included two prevalent changes accounting for close to 60% of the mutant alleles studied and one novel change (c.494G>C) which by functional analysis is clearly pathogenic. We have also identified the deep intronic change c.654+462A>G, and the results of the antisense treatment in the patient's cell line confirmed the functional recovery of PCC activity. All PA patients bearing out-offrame mutations presented the disease earlier while patients bearing in hemizygous fashion p.E168K and p.R165W presented the disease later. Regarding the MMAuria patients, we have found three novel mutations in the MUT gene (c.1068G>A, c.1587_1594del8 and c.593delA) and one in the MMAB gene (c.349-1 G>C). Two patients with MMAuria with homocystinuria cblC type are carriers of the frequent c.271dupA mutation. All mut 0 , cblB and cblC patients presented the symptoms early and in general had more neurological complications, while cblA and mut -patients exhibited a late-onset presentation, and in general the long-term outcome was better. The results presented in this work emphasize the importance of the genetic analysis of the patients not only for diagnostic purposes but also to research into novel therapies based on the genotype