Carglumic acid enhances rapid ammonia detoxification in classical organic acidurias with a favourable risk-benefit profile: a retrospective observational study

Valayannopoulos, Vassili; Baruteau, Julien; Delgado, María Bueno; Cano, Aline; Couce, María L.; Toro, Mireia del; Donati, Maria Alice; García‐Cazorla, Ángeles; Gil-Ortega, David; Quero, Pedro Gomez-de; Guffon, Nathalie; Hofstede, Floris C.; Kalkan-Ucar, Sema; Çöker, Mahmut; Lama-More, R A; Casanova, Mercedes Martínez‐Pardo; Molina, Á.; Pichard, Samia; Papadia, Francesco; Roselló, Patricia; Plisson, Céline; Mouhaër, Jeannie Le; Chakrapani, Anupam

doi:10.1186/s13023-016-0406-2

Cited by 39 publications

(54 citation statements)

References 20 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Third, there is controversy about the use of N ‐carbamylglutamate in acute and chronic hyperammonemia. While acute amelioration of hyperammonemia due to N ‐carbamylglutamate is unequivocal, and no serious side effects due to N ‐carbamylglutamate are noted, other toxic metabolites do not decrease concurrently with ammonia . Since ammonia is the main biochemical parameter indicating acute metabolic decompensation, there is a risk of not recognizing and hence not managing (impending) acute metabolic decompensations adequately.…”

Section: Therapy Targets and Treatment Strategiesmentioning

confidence: 99%

Pathophysiology of propionic and methylmalonic acidemias. Part 2: Treatment strategies

Haijes

Hasselt

Jans

et al. 2019

J of Inher Metab Disea

View full text Add to dashboard Cite

Despite realizing increased survival rates for propionic acidemia (PA) and methylmalonic acidemia (MMA) patients, the current therapeutic regimen is inadequate for preventing or treating the devastating complications that still can occur. The elucidation of pathophysiology of these complications allows us to evaluate and rethink treatment strategies. In this review we display and discuss potential therapy targets and we give a systematic overview on current, experimental and unexplored treatment strategies in order to provide insight in what we have to offer PA and MMA patients, now and in the future. Evidence on the effectiveness of treatment strategies is often scarce, since none were tested in randomized clinical trials. This raises concerns, since even the current consensus on best practice treatment for PA and MMA is not without controversy. To attain substantial improvements in overall outcome, gene, mRNA or enzyme replacement therapy is most promising since permanent reduction of toxic metabolites allows for a less strict therapeutic regime. Hereby, both mitochondrial‐associated and therapy induced complications can theoretically be prevented. However, the road from bench to bedside is long, as it is challenging to design a drug that is delivered to the mitochondria of all tissues that require enzymatic activity, including the brain, without inducing any off‐target effects. To improve survival rate and quality of life of PA and MMA patients, there is a need for systematic (re‐)evaluation of accepted and potential treatment strategies, so that we can better determine who will benefit when and how from which treatment strategy.

show abstract

Section: Therapy Targets and Treatment Strategiesmentioning

confidence: 99%

Pathophysiology of propionic and methylmalonic acidemias. Part 2: Treatment strategies

Haijes

Hasselt

Jans

et al. 2019

J of Inher Metab Disea

View full text Add to dashboard Cite

show abstract

“…Inhibition of carbamylphosphate synthetase I (CPS1), a urea cycle enzyme, by accumulating metabolites in OAs causes secondary hyperammonemia in these disorders [167]. N-carbamylglutamate, an N-acetylglutamate analogue, allosterically activates CPS1 and inhibits the secondary effects of the propionate metabolites on CPS1 [36, 45, 189, 192–195]. Once catabolism has been reversed and acidosis corrected, complete nutrition should be reinitiated as soon as possible, preferably via the enteral route.…”

Section: Acute Metabolic Decompensationmentioning

confidence: 99%

Methylmalonic and propionic acidemias: clinical management update

Fraser

Venditti

2016

Current Opinion in Pediatrics

160

158

View full text Add to dashboard Cite

Purpose of review Recent clinical studies and management guidelines for the treatment of the organic acidopathies methylmalonic acidemia (MMA) and propionic acidemia (PA) address the scope of interventions to maximize health and quality of life. Unfortunately, these disorders continue to cause significant morbidity and mortality due to acute and chronic systemic and end-organ injury. Recent findings Dietary management with medical foods has been a mainstay of therapy for decades, yet well controlled patients can manifest growth, development, cardiac, ophthalmological, renal and neurological complications. Patients with organic acidopathies suffer metabolic brain injury which targets specific regions of the basal ganglia in a distinctive pattern, and these injuries may occur even with optimal management during metabolic stress. Liver transplantation has improved quality of life and metabolic stability, yet transplantation in this population does not entirely prevent brain injury or the development of optic neuropathy and cardiac disease. Summary Management guidelines should identify necessary screening for patients with MMA and PA, and improve anticipatory management of progressive end-organ disease. Liver transplantation improves overall metabolic control, but injury to non-regenerative tissues may not be mitigated. Continued use of medical foods in these patients requires prospective studies to demonstrate evidence of benefit in a controlled manner.

show abstract

“…One such therapy could be N ‐carbamoyl‐ l ‐glutamate (NCG) use. This deacylase‐resistant analogue of N ‐acetyl‐ l ‐glutamate (NAG), the essential activator of CPS1, is used in primary NAG synthase (NAGS) deficiency and the hyperammonemia of organic acidemias . It could be valuable in partial CPS1D if NAG fails to saturate CPS1 in vivo, which might be common in urea cycle disorders if liver glutamate levels (needed for NAG synthesis; NAGS has a high K m for glutamate) are low due to therapeutic protein restriction and to increased glutamate conversion to glutamine.…”

Section: Introductionmentioning

confidence: 99%

N‐carbamoylglutamate‐responsive carbamoyl phosphate synthetase 1 (CPS1) deficiency: A patient with a novel CPS1 mutation and an experimental study on the mutation's effects

et al. 2019

View full text Add to dashboard Cite

N ‐carbamoyl‐ l ‐glutamate (NCG), the N ‐acetyl‐ l ‐glutamate analogue used to treat N ‐acetylglutamate synthase deficiency, has been proposed as potential therapy of carbamoyl phosphate synthetase 1 deficiency (CPS1D). Previous findings in five CPS1D patients suggest that NCG‐responsiveness could be mutation‐specific. We report on a patient with CPS1D, homozygous for the novel p.(Pro1211Arg) CPS1 mutation, who presented at 9 days of life with hyperammonemic coma which was successfully treated with emergency measures. He remained metabolically stable on merely oral NCG, arginine, and modest protein restriction. Ammonia scavengers were only added after poor dietary compliance following solid food intake at age 1 year. The patient received a liver transplantation at 3.9 years of age, having normal cognitive, motor, and quality of life scores despite repeated but successfully treated episodes of hyperammonemia. Studies using recombinantly produced mutant CPS1 confirmed the partial nature of the CPS1D triggered by the p.(Pro1211Arg) mutation. This mutation decreased the solubility and yield of CPS1 as expected for increased tendency to misfold, and reduced the thermal stability, maximum specific activity ( V max ; ~2‐fold reduction), and apparent affinity (~5‐fold reduction) for ATP of the purified enzyme. By increasing the saturation of the NAG site in vivo, NCG could stabilize CPS1 and minimize the decrease in the effective affinity of the enzyme for ATP. These observations, together with prior experience, support the ascertainment of clinical responsiveness to NCG in CPS1 deficient patients, particularly when decreased stability or lowered affinity for NAG of the mutant enzyme are suspected or proven.

show abstract

Carglumic acid enhances rapid ammonia detoxification in classical organic acidurias with a favourable risk-benefit profile: a retrospective observational study

Cited by 39 publications

References 20 publications

Pathophysiology of propionic and methylmalonic acidemias. Part 2: Treatment strategies

Pathophysiology of propionic and methylmalonic acidemias. Part 2: Treatment strategies

Methylmalonic and propionic acidemias: clinical management update

N‐carbamoylglutamate‐responsive carbamoyl phosphate synthetase 1 (CPS1) deficiency: A patient with a novel CPS1 mutation and an experimental study on the mutation's effects

Contact Info

Product

Resources

About