Pyruvate Dehydrogenase Complex Deficiency

Pyruvate Dehydrogenase Complex Deficiency

Pavlu‑Pereira et al. Orphanet J Rare Dis (2020) 15:298 https://doi.org/10.1186/s13023‑020‑01586‑3 RESEARCH Open Access Pyruvate dehydrogenase complex defciency: updating the clinical, metabolic and mutational landscapes in a cohort of Portuguese patients Hana Pavlu‑Pereira1, Maria João Silva1,2, Cristina Florindo1, Sílvia Sequeira3, Ana Cristina Ferreira3, Sofa Duarte3, Ana Luísa Rodrigues4, Patrícia Janeiro4, Anabela Oliveira5, Daniel Gomes5, Anabela Bandeira6, Esmeralda Martins6, Roseli Gomes7, Sérgia Soares7, Isabel Tavares de Almeida1,2, João B. Vicente8* and Isabel Rivera1,2* Abstract Background: The pyruvate dehydrogenase complex (PDC) catalyzes the irreversible decarboxylation of pyruvate into acetyl‑CoA. PDC defciency can be caused by alterations in any of the genes encoding its several subunits. The resulting phenotype, though very heterogeneous, mainly afects the central nervous system. The aim of this study is to describe and discuss the clinical, biochemical and genotypic information from thirteen PDC defcient patients, thus seeking to establish possible genotype–phenotype correlations. Results: The mutational spectrum showed that seven patients carry mutations in the PDHA1 gene encoding the E1α subunit, fve patients carry mutations in the PDHX gene encoding the E3 binding protein, and the remaining patient carries mutations in the DLD gene encoding the E3 subunit. These data corroborate earlier reports describing PDHA1 mutations as the predominant cause of PDC defciency but also reveal a notable prevalence of PDHX mutations among Portuguese patients, most of them carrying what seems to be a private mutation (p.R284X). The biochemical analyses revealed high lactate and pyruvate plasma levels whereas the lactate/pyruvate ratio was below 16; enzy‑ matic activities, when compared to control values, indicated to be independent from the genotype and ranged from 8.5% to 30%, the latter being considered a cut‑of value for primary PDC defciency. Concerning the clinical features, all patients displayed psychomotor retardation/developmental delay, the severity of which seems to correlate with the type and localization of the mutation carried by the patient. The therapeutic options essentially include the administration of a ketogenic diet and supplementation with thiamine, although arginine aspartate intake revealed to be benefcial in some patients. Moreover, in silico analysis of the missense mutations present in this PDC defcient population allowed to envisage the molecular mechanism underlying these pathogenic variants. *Correspondence: [email protected]; [email protected] 1 Metabolism and Genetics Group, Research Institute for Medicines (iMed. ULisboa), Faculty of Pharmacy, Universidade de Lisboa, Av. Prof. Gama Pinto, 1649‑003 Lisboa, Portugal 8 Instituto de Tecnologia Química e Biológica António Xavier, NOVA University of Lisbon, Av. da República (Estação Agronómica Nacional), 2780‑157 Oeiras, Portugal Full list of author information is available at the end of the article © The Author(s) 2020. Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creat iveco mmons .org/licen ses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creat iveco mmons .org/publi cdoma in/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data. Pavlu‑Pereira et al. Orphanet J Rare Dis (2020) 15:298 Page 2 of 14 Conclusion: The identifcation of the disease‑causing mutations, together with the functional and structural charac‑ terization of the mutant protein variants, allow to obtain an insight on the severity of the clinical phenotype and the selection of the most appropriate therapy. Keywords: Pyruvate dehydrogenase complex defciency, Neurological dysfunction, Lactic acidosis, Mutational analysis, Genotype–phenotype correlation Background hypoventilation), facial dysmorphism, and peripheral Pyruvate dehydrogenase complex (PDC) defciency, frst neuropathy. Structural and functional brain abnormali- described in 1970 by Blass et al. [1], is an inborn error ties are also described, including ventriculomegaly and of mitochondrial energy metabolism. Te pyruvate oxi- Leigh syndrome. According to their severity, the pheno- dation route, that bridges the cytosolic glycolytic path- types can be divided into three main categories: neonatal, way and the mitochondrial tricarboxylic acid cycle [2], infantile and benign [10–12]. involves not only PDC but also pyruvate transport and Te therapeutic strategies target: (i) the metabolic the ancillary metabolic routes associated with various pathway, bypassing energy production via a ketogenic cofactors. PDC, which irreversibly decarboxylates pyru- diet [11, 13], (ii) the regulatory system of the dysfunc- vate to acetyl coenzyme A, comprises three functional tional PDC, using xenobiotic inhibitors [14, 15], or (iii) (E1 or pyruvate dehydrogenase, E2 or dihydrolipoamide stimulation of the residual PDC activity with supplemen- transacetylase, and E3 or dihydrolipoyl dehydrogenase) tation of cofactors [16, 17]. Nevertheless, none of these and one structural (E3BP or E3 binding protein, formerly treatments is sufciently efective and the responsive- designated by protein X) components, and the regulatory ness is markedly individual. Tus, the precise diagnosis, PDC kinases and PDC phosphatases, which control the including the identifcation of the genetic defect and the complex activity via phosphorylation/dephosphorylation phenotypic consequences, is becoming increasingly deci- [3]. Te E1 subunit catalyzes the frst, rate-limiting and sive for selecting the appropriate therapeutic strategy. irreversible step of the reaction which takes place in two Knowledge on the functional and structural impact of the active sites formed at the interface between their two α identifed mutations on the resulting PDC component and two β subunits, each requiring a thiamine pyrophos- variant provides relevant information for informed deci- phate cofactor and magnesium ions for activity [4, 5]. sions on the therapeutic approaches. Te great majority (≈ 77%) of patients with PDC def- In this study, we describe and discuss the profles of ciency harbor mutations in the X-linked PDHA1 gene thirteen Portuguese PDC defcient patients with ref- which encodes the E1α subunit. Hemizygous males are erence to their clinical data, biochemical fndings and usually symptomatic whereas heterozygous females results of DNA analysis, thus seeking to establish possible present variable expression due to random patterns of genotype–phenotype correlations. Tis is the frst report X-inactivation in diferent tissues, the clinical manifesta- on phenotypic and genotypic variability in a subset of tions depending on the proportion of cells expressing the PDC defcient patients diagnosed in Portugal. mutant E1α subunit. Te remaining cases are caused by mutations in the genes encoding the remaining subunits: PDHB encoding E1β (4.3%), DLAT encoding E2 (1.5%), Results DLD encoding E3 (6.2%) and PDHX encoding E3BP General information (10.7%) [6]. Te broad phenotypic spectrum of PDC defciency, com- Te clinical presentation is extremely heterogeneous, mon to many other genetic mitochondrial disorders, ranging from a fatal lactic acidosis and progressive neu- often hampers the achievement of a rapid diagnosis. rological and neuromuscular degradation in the neonatal Patients were suspected to be PDC defcient based on period to a chronic neurological dysfunction and neuro- clinical signs /symptoms and biochemical data, namely degenerative condition. Inadequate removal of lactate but elevated plasma lactate (L) and pyruvate (P) levels with mainly of pyruvate [7] results in lactic acidemia which, low L/P ratio and/or impaired PDC activity, but only together with the blood lactate/pyruvate ratio ≤ 20, is those with genetic confrmation were considered in this recognized as an important biomarker [8, 9]. Te primary study. Tus, a total of 13 individuals, all of European phenotypic manifestation corresponds to an impairment ancestry, were diagnosed (Table 1). Te prevalence of of neurological and/or developmental functions, leading PDC defciency in Portugal is therefore estimated to be to a wide range of symptoms and clinical features: hypo- 1/790,000, comparable to the prevalence of 1/1,000,000 tonia, seizures, ataxia, respiratory distress (like apnea and reported by Orphanet, the portal of rare diseases and Pavlu‑Pereira Table 1 Genetic, biochemical, clinical and therapeutics data concerning the cohort of 13 Portuguese PDC defcient patients Patient 1-JCF 2-MJG 3-DMN 4-GCNa 5-RCNa 6-JAR 7-ARV 8-GMR 9-MJP 10-LCM 11-AVB 12-MBS 13-MMS et al. Orphanet J Rare Dis Orphanet (2020)15:298 JRare et al. General infor- mation Year of birth 1996 2000 2005 2011

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