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Clinical Trial Summary

GRIN-related disorders encompass a new group of Inborn Errors of Metabolism according to the recent nosology published by Ferreira et al (Genet Med, 2019). These rare conditions represent a subtype of paediatric encephalopathies leading to intellectual disability, hypotonia, communication deficits and motor impairment (Orphanet entries: 178469, 289266, 101685, for GRIN1, GRIN2A and GRIN2B, respectively). Mutations leading to glutamatergic hypotransmission can be potentially treated with L-Serine leading to significant clinical benefits in patients according to a pilot study published by our group (Soto et al, 2019). In our study, the investigators will include about 20 spanish patients older than 2 years of age, harbouring GRIN variants functionally anotated as loss-of-function pathogenic variants. The investigators will evaluate dose tolerability, efficacy of the treatment according to neurocognitive and motor scales, as well as the effects of L-serine in microbiome composition.


Clinical Trial Description

GRIN-related disorders, a novel group of IEM (inborn errors of metabolism): Mutations on GRIN genes, encoding for the N-methyl-D-Aspartate receptor (NMDAR) subunits, have been recently associated with autosomic dominant GRIN-related disorders (Lemke et al., 2016; Platzer et al., 2017; XiangWei et al., 2018; Strehlow et al., 2019). These rare conditions represent a subtype of paediatric encephalopathies leading to intellectual disability, hypotonia, communication deficits and motor impairment (Orphanet entries: 178469, 289266, 101685, for GRIN1, GRIN2A and GRIN2B, respectively). There are about 200 patients affected with these diseases in Europe according to a data collection study conducted by the patients' families and presented at the first European meeting of GRIN disorders in October 2018 (Barcelona, Hospital Sant Joan de Déu). Along the last years, our research efforts were focused to delineate the pathophysiology and personalized therapies for these diseases that are now considered as a new category of IEM. In particular, the recent nosology of inherited metabolic disorders (Ferreira et al, 2018) classifies GRIN-related disorders in the category: "DISORDERS OF NITROGEN CONTAINING COMPOUNDS", and the subgroup: "20. Disorders of glutamate metabolism": GRIN1 (OMIM138249): Ionotropic glutamate receptor NMDA type subunit 1 dysregulation (AD, AR): Autosomal dominant mental retardation type 8; neurodevelopmental disorder with or without hyperkinetic movements and seizures. GRIN2A (OMIM138253): Ionotropic glutamate receptor NMDA type subunit 2A dysregulation (AD): Non related to human disease so far. GRIN2B (OMIM138252): Inotropic glutamate receptor NMDA type subunit 2B dysregulation (AD): Early infantile epileptic encephalopathy type 27; autosomal dominant mental retardation type 6. GRIN2D (OMIM602717): Ionotropic glutamate receptor NMDA type subunit 2D superactivity (AD): Early infantile epileptic encephalopathy type 46. Indeed, in a proof-of-concept, the investigators have determined that a GRIN2B loss-of-function variant can be rescued in vitro, by means of elevated doses of D-serine (NMDAR coagonist) administration. More importantly, the investigators showed that L-serine (the D-serine natural precursor) dietary supplement was associated with a significant improvement of motor and communication skills of the patient harbouring GRIN2B hypofunctional variant (Soto et al., 2019). Serine enantiomers: cognitive enhancement and potential use in GRIN-related disorders L-serine (C3H7NO3; 105.09 g/mol; synonym (S)-2-amino-3-hydroxypropanoic acid) is a naturally-occurring dietary amino acid. It is abundant in soy products, some edible seaweeds, sweet potatoes, eggs, and meat. Since some L-serine is produced by astrocytes in the brain, it is considered a non-essential amino acid. L-serine is directly involved in the biosynthesis of purines, pyrimidines, and other amino acids. Serine residues are found in most proteins and within proteins function as a site for phosphorylation. L-serine is considered as GRAS (generally recognized as safe) by the FDA and has been approved as a normal food additive under CFR172.320. It is widely sold as a dietary supplement. A randomized trial of L-serine in 18 patients with hereditary sensory and autonomic neuropathy type 1 has been published (ClinicalTrials.gov identifier NCT01733407). High-dose oral L-serine supplementation (400 mg/kg/day) appears safe in patients with HSAN1 and is potentially effective at slowing disease progression.The authors did not report adverse effects at doses of 400mg/kg/day (Eichler et al) Further, L-serine dietary supplement has been used in Paediatrics at doses of 400 to 600 mg/kg/day since several decades ago for the treatment of a group of inherited metabolic disorders, namely: 3-phosphoglycerate dehydrogenase deficiency, phosphoserine aminotransferase deficiency and phosphoserine phosphatase deficiency, with no reported adverse effects. In patients with 3-phosphoglycerate dehydrogenase deficiency, neither 100 nor 200 mg/kg per day had any effects on the patients' symptoms or on CSF serine and glycine concentrations (de Koning et al 1998). Only with L-serine 500 mg/kg per day was a reduction in seizure activity noted and an increase in serine CSF concentrations observed (Koning 2006). D-serine, the natural coagonist of the NMDA receptor, results from the racemisation of L-serine in brain, and its biosynthetic alteration can lead to neuronal dysfunction (van de Crabben et al., 2013). In addition to its homeostatic role in neuronal function, the beneficial effect of D-serine supplement has been recently shown in healthy individuals (Levin et al., 2015). Heresco-Levy's group showed the procognitive effects of D-serine throughout NMDA receptor function. D-serine deficits have been associated with aging in rats, with a functional rescue observed following D-serine administration (Turpin et al., 2011; Billard, 2015). Additionally, L-serine biosynthesis defects (de Koning, 2006) cause neurological phenotypes (psychomotor retardation, microcephaly, seizures) that can be safely treated by L-serine. Moreover, and as already mentioned, our group has recently described the beneficial effect of a chronic L-serine dietary (500 mg/kg/per day) supplement in a 5 years GRIN2B patient (Soto et al., 2019). The patient has shown notable improvements in motor and cognitive performance and communication after 11 and 17 months of L-serine dietary supplementation. These data suggest that L-serine supplementation might ameliorate GRIN2B-related severe encephalopathy and other neurological conditions caused by glutamatergic signaling deficiency. Besides this direct effect, D-serine can prevent behavioral abnormalities in adult mice challenged by maternal immune activation (Fujita et al., 2016), and induces hippocampal neurogenesis (Sultan et al., 2015). These evidences indicate that 500 mg/kg/per day is a safe and effective dose, that could be used in patients with GRIN related disorders. HYPOTHESIS Overall, these evidences indicate that, independently on the molecular aetiology, NMDAR activity potentiation throughout L-serine dietary supplement can ameliorate glutamatergic function and improve the life quality of children suffering from GRIN-related disorders, a novel IEM. Dietary supplement of L-serine results on increased D-serine plasma levels and potentiates NMDA receptors leading to NMDA receptors functionality increase and hypofunctionality rescue, as shown in a pilot study (Soto et al., 2019). AIM The purpose of this study is to determine L-Serine dietary supplement efficacy for the treatment of patients with GRIN-related disorders caused by the presence of GRIN genetic variants leading to hypofunctional (loss-of-function) NMDA receptors. ;


Study Design


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NCT number NCT04646447
Study type Interventional
Source Fundació Sant Joan de Déu
Contact Angels García Cazorla, MD, PHD
Phone 0034 93 280 40 00
Email agarcia@sjdhospitalbarcelona.org
Status Recruiting
Phase N/A
Start date July 30, 2020
Completion date May 31, 2022