TTCT 1471 mutation in lysnuric protein intolerance: Clinical features of a Tunisian paediatric series.

INTRODUCTION: Lysinuric protein intolerance (LPI) is a rare inherited metabolic disease. It is caused by a deficiency in cationic amino acid transport caused by mutations in SLC7A7 gene. AIM: To identify the clinical, diagnostic and therapeutic features of lysnuric protein intolerance. METHODS: This was a retrospective study conducted in the pediatric department of La Rabta Hospital over a period of 30 years (1992 to 2022). We included patients with clinical signs suggestive of lysinuric protein intolerance and orotic acid in the urine. RESULTS: We enrolled seven patients. The median age at disease onset was nine months. The median age at positive diagnosis was 21 months. Growth retardation, hepatosplenomegaly and haematological abnormalities were the main features of the disease. Hyperammonia and increased urinary orotic acid were present in all patients. Molecular biology revealed the del TTCT 1471 mutation in five patients. All patients were prescribed a low protein diet and citrulline supplementation. Complications of the disease were growth retardation (n=7), psychomotor or intellectual retardation (n=5), haemophagocytic lymphohistiocytosis (n=4) and osteoporosis (n=3). After a median follow-up of 11 years, six of our patients are still alive. One patient died from acute hyperammonemic encephalopathy. CONCLUSION: In this paediatric series, delays in diagnosis and treatment of LPI were responsible for long-term sequelae, particularly bone and neurological. The delTTCT1471 mutation appears to be the mutation of paediatric-onset forms in Tunisia. This mutation was not associated with pulmonary involvement, which is a prognostic factor and the main cause of death.

Case report: Rhabdomyolysis in children in acute and chronic disease-a challenging condition in pediatric emergency medicine.

Rhabdomyolysis is a challenging condition in pediatric emergency departments (PED): It ranges from asymptomatic illness with isolated elevation of creatine kinase (CK) levels to a life-threatening condition associated with extreme elevations in CK, electrolyte imbalances, circulatory failure (CF), acute kidney injury (AKI), and multi-organ disease. Most common causes of rhabdomyolysis are viral myositis and trauma, hereditary metabolic myopathies must be considered when facing rhabdomyolysis in early childhood. We report two cases of severe rhabdomyolysis with CF in our PED, thereby summarizing first-line management of rhabdomyolysis.

Special low protein foods for phenylketonuria in Turkey: An examination of their nutritional composition compared to regular food.

Background: Special low protein foods (SLPF) that are phenylalanine (Phe)-free or have a low Phe content are an integral part of PKU diet therapy. Aim: The aim of this study is to determine the nutritional profiles of SLPFs used in Turkey and to compare their contents with equivalent products in the "regular" category, in order to evaluate nutritional and metabolic risks. Methods: Between February and March 2022, the information concerning the nutritional contents of "special low protein products" recommended for PKU and available in Turkey were obtained from the websites of producers/suppliers. Results: A total of 148 SLPFs were identified in Turkey. Compared to regular products, SLPFs were determined to contain less sugar and high carbohydrate content in the Turkish market (p < 0.001). Overall, SLPF products had higher dietary fiber compared to products with regular protein content (p < 0.001). In SLPF subgroups, meat substitutes, rice and pasta, and soup products had significantly less total fat than regular products; low protein bread, sweet snacks, and salted crackers were found to contain less saturated fat (p < 0.05). Moreover, all SLPFs contained significantly more salt than regular products, especially the salt content of subgroups of low protein bread, flour, pasta, and rice was significantly higher than regular products (p < 0.05). Conclusion: Including detailed nutritional information on the Turkish SLPFs' food labels will be effective for patients with PKU to follow themselves on their own.

Current Status and Prospects of Screening for Newborn Hereditary Metaboolic Disease / 罕见病研究

Newborn screening is an effective measure for early detection and early treatment of rare genetic diseases. Among the three-level preventive measures to reduce birth defects, newborn screening has a significant preventive effect, and continues to develop with the advancement of new therapies and new technologies. Newborn screening is also relatively more reliable to obtain data on the prevalence of rare diseases. This article introduces the history and current status of neonatal screening for newborn hereditary metabolic disease in China, presents the disease spectrum and prevalence of 7 819 662 cases of neonatal screening by tandem mass spectrometry, and proposes 12 rare diseases as the primary targeting diseases for newborn screening by tandem mass spectrometry in China. At last, the article raises and discusses the issues of requirement for technology development and ethics of newborn screening.

Fever,poor response, convulsions, and hepatomegaly / 中华实用儿科临床杂志

Objective To investigate the differential diagnosis of Reye syndrome and the characteristics of primary carnitine deficiency,and to provide diagnostic strategy for similar cases.Methods There was a case presented with fever,poor response,convulsions and hepatomegaly hospitalized in Wuhan Children's Hospital,and the clinical manifestations were described,the physical examination was comprehensively conducted,the auxiliary examination results were recorded,some pediatric specialists from ICU,neurology department,genetic metabolic department,digestive system department were invited to discuss the case.The treatment was adjusted according to the suggested opinions;the treatment effects and the final diagnosis were tracked.Results The primary diagnosis of the case was central nervous system infection or toxic encephalopathy at the time of admission,but Reye syndrome could not be excluded.Although the cerebrospinal fluid test and brain MRI examination detected nothing abnormal,liver function suggested alanine aminotrans ferase ALT increase,blood sugar decrease,the liver volume increase,which was detected by liver ultrasound.Blood amino acids examination revealed the carnitine level decreased,and it was confirmed as primary carnitine deficiency in the end.L-carnitine was used to treat the disease,and its effect was good.Conclusions Great importance should be attached to children with onset age,physical check-up,and multidisciplinary cooperation.Use monism to explain the illness and the auxiliary inspection as far as possible,so that it can get early diagnosis and treatment,and the outcome is good.

The chaperone role of the pyridoxal 5'-phosphate and its implications for rare diseases involving B6-dependent enzymes.

The biologically active form of the B6 vitamers is pyridoxal 5'-phosphate (PLP), which plays a coenzymatic role in several distinct enzymatic activities ranging from the synthesis, interconversion and degradation of amino acids to the replenishment of one-carbon units, synthesis and degradation of biogenic amines, synthesis of tetrapyrrolic compounds and metabolism of amino-sugars. In the catalytic process of PLP-dependent enzymes, the substrate amino acid forms a Schiff base with PLP and the electrophilicity of the PLP pyridine ring plays important roles in the subsequent catalytic steps. While the essential role of PLP in the acquisition of biological activity of many proteins is long recognized, the finding that some PLP-enzymes require the coenzyme for refolding in vitro points to an additional role of PLP as a chaperone in the folding process. Mutations in the genes encoding PLP-enzymes are causative of several rare inherited diseases. Patients affected by some of these diseases (AADC deficiency, cystathionuria, homocystinuria, gyrate atrophy, primary hyperoxaluria type 1, xanthurenic aciduria, X-linked sideroblastic anaemia) can benefit, although at different degrees, from the administration of pyridoxine, a PLP precursor. The effect of the coenzyme is not limited to mutations that affect the enzyme-coenzyme interaction, but also to those that cause folding defects, reinforcing the idea that PLP could play a chaperone role and improve the folding efficiency of misfolded variants. In this review, recent biochemical and cell biology studies highlighting the chaperoning activity of the coenzyme on folding-defective variants of PLP-enzymes associated with rare diseases are presented and discussed.

Gly161 mutations associated with Primary Hyperoxaluria Type I induce the cytosolic aggregation and the intracellular degradation of the apo-form of alanine:glyoxylate aminotransferase.

Primary Hyperoxaluria Type I (PH1) is a severe rare disorder of metabolism due to inherited mutations on liver peroxisomal alanine:glyoxylate aminotransferase (AGT), a pyridoxal 5'-phosphate (PLP)-dependent enzyme whose deficiency causes the deposition of calcium oxalate crystals in the kidneys and urinary tract. PH1 is an extremely heterogeneous disease and there are more than 150 disease-causing mutations currently known, most of which are missense mutations. Moreover, the molecular mechanisms by which missense mutations lead to AGT deficiency span from structural, functional to subcellular localization defects. Gly161 is a highly conserved residue whose mutation to Arg, Cys or Ser is associated with PH1. Here we investigated the molecular bases of the AGT deficit caused by Gly161 mutations with expression studies in a mammalian cellular system paired with biochemical analyses on the purified recombinant proteins. Our results show that the mutations of Gly161 (i) strongly reduce the expression levels and the intracellular half-life of AGT, and (ii) make the protein in the apo-form prone to an electrostatically-driven aggregation in the cell cytosol. The coenzyme PLP, by shifting the equilibrium from the apo- to the holo-form, is able to reduce the aggregation propensity of the variants, thus partly decreasing the effect of the mutations. Altogether, these results shed light on the mechanistic details underlying the pathogenicity of Gly161 variants, thus expanding our knowledge of the enzymatic phenotypes leading to AGT deficiency.

Multiple mechanisms of action of pyridoxine in primary hyperoxaluria type 1.

Primary hyperoxaluria type 1 (PH1) is a rare hereditary calcium oxalate kidney stone disease caused by a deficiency of the liver-specific pyridoxal-phosphate-dependent peroxisomal enzyme alanine:glyoxylate aminotransferase (AGT). About one third of patients are responsive to pharmacological doses of pyridoxine (vitamin B6), but its mechanism of action is unknown. Using stably transformed Chinese Hamster Ovary (CHO) cells expressing various normal and mutant forms of AGT, we have shown that pyridoxine increases the net expression, catalytic activity and peroxisomal import of the most common mistargeted mutant form of AGT (i.e. Gly170Arg on the background of the polymorphic minor allele). These multiple effects explain for the first time the action of pyridoxine in the most common group of responsive patients. Partial effects of pyridoxine were also observed for two other common AGT mutants on the minor allele (i.e. Phe152Ile and Ile244Thr) but not for the minor allele mutant AGT containing a Gly41Arg replacement. These findings demonstrate that pyridoxine, which is metabolised to pyridoxal phosphate, the essential cofactor of AGT, achieves its effects both as a prosthetic group (increasing enzyme catalytic activity) and a chemical chaperone (increasing peroxisome targeting and net expression). This new understanding should aid the development of pharmacological treatments that attempt to enhance efficacy of pyridoxine in PH1, as well as encouraging a re-evaluation of the extent of pyridoxine responsiveness in PH1, as more patients than previously thought might benefit from such treatment.