Hypotonia–cystinuria 2p21 deletion syndrome: Intrafamilial variability of clinical expression

Introduction

Homozygous deletion of chromosome 2p21, containing two closely located genes, SLC3A1, and PREPL (Fig. 1), has been linked to the hypotonia–cystinuria syndrome (HCS; OMIM #606407).1 Symptoms include generalized hypotonia at birth, failure to thrive, cystinuria, and growth retardation. The deletion size typically ranges from 23.8 to 75.5 kb. Taroni (2019) reported that the HCS is a rare disease with only 26 cases reported to date resulting from eight different deletions.2 From the published reports, HCS is not usually associated with mitochondrial dysfunction. Literature search yielded two previous reports of HCS with mitochondrial dysfunction (Parvari,3 2001 and Zaffanello,4 2003).

image Genomic organization of SLC3A1 and PREPL and its neighboring genes on Chromosome 2. Note: Gviz software was used for visualization of this genomic region.24

SLC3A1 encodes the heavy chain subunit of the cystine and dibasic amino acid transporters in the renal proximal tubule and small intestine. Inactivation causes cystinuria type I (OMIM 220100).5-7 The SLC3A1 gene spans 46 kb and has 10 exons.8, 9 Cystinuria is characterized by a defect in resorption of cystine, ornithine, lysine, and arginine. High concentrations of cystine in the distal tubule results in the precipitation of cystine stones.

PREPL is a prolyl oligopeptidase-like protein homologous to the prolyl oligopeptidase family.10 All proteins in this family have been implicated in various clinical conditions; prolyl endopeptidase (PREP; OMIM 600400), oligopeptidase B (OpdB) (role in host cell invasion by Trypanosoma cruzi, Chagas disease),11 acylaminoacyl-peptidase (APEH; OMIM 102645), and dipeptidase IV (DPPIV; OMIM 102720). Isolated loss of PREPL gene has been implicated in congenital myasthenic syndrome-22 (CMS22; OMIM 616224).12

We report two siblings with a similar early clinical presentation consistent with mitochondrial disease. Muscle biopsy revealed partial cytochrome c oxidase deficiency. The later clinical courses in the two siblings diverged with severe nephrolithiasis dominating the one case and neurobehavioral disturbances dominating the other. We offer some speculations regarding the intrafamilial variability of the clinical presentations during later development.

Discussion

The patients presented here have homozygous deletions of SLC3A1 and PREPL which according to Chabrol et al. and Barthholdi et al. would be classified as HCS. Chabrol et al. reported respiratory chain deficiency observed in all patients with 2p21 deletion syndrome patients.16, 17 Remarkably, the above clinical presentations are inconsistent with this report of HCS as the clinical evidence for a mitochondrial disorder in HCS is uncommon.2

In contrast, the presence of mitochondrial disease is relatively common in “2p21 microdeletion syndrome” which involves the deletion of at least four contiguous genes on chromosome 2, SLC3A1, PREPL, PPM1B, and CAMKMT. PPM1B, and CAMKMGT mutations were not found in these patients.18 The two siblings were initially diagnosed with partial cytochrome c oxidase deficiency. Subsequent WES and cSNP-array confirmed the homozygous microdeletion of SLC3A1 and PREPL. Therefore, these findings confirmed the diagnosis of HCS presenting atypically with mitochondrial dysfunction and partial cytochrome c oxidase deficiency.

Mitochondrial dysfunction in the setting of SLC3A1 and PREPL mutations is intriguing but not easily explained. Neither gene, has been shown to play a direct role in mitochondrial function. We do wonder if mitochondrial dysfunction could be the result of a blunted response to oxidative stress. Reduced SLC3A1 expression may affect glutathione (GSH) synthesis as cysteine serves as the rate-limiting precursor for GSH synthesis. Dysregulation of GSH could contribute to increased cellular vulnerability to oxidative stress.19 Further studies will be necessary to pursue this speculation.

HCS syndrome is generally accompanied by GH deficiency. According to the current understanding of familial isolated GH deficiencies, there are at least four possibilities.20 However, none of these possibilities explain the GH deficiency in this clinical setting.

Although the two patients have the same microdeletion, their clinical presentation later diverged significantly. These differences could be attributed, at least in part, to the additional mutations in the respective genetic backgrounds. For example, Patient 2 has a mutation in GRIN3A which could potentially impact synaptic elements in the brain contributing to severe neurobehavioral issues.

The absence of renal stones and late presentation of cystinuria in Patient 2 also is perplexing. We would expect Patient 2 to present with urolithiasis and cystinuria earlier. The difference in clinical symptoms of urolithiasis in Patient 1 versus Patient 2 despite sharing the same deletions supports the observation of intrafamilial phenotypic variability; but the mechanism underlying this variability remains unexplained. According to Lahme et al., mutation of the SLC3A1 gene was detected in only 50% of patients presenting with cystinuria suggesting multiple factors contributing to the phenotype.21 However, according to Parvari et al. a low rate of SLC3A1 mutation in cystinuria likely was due to lack of screening for alternative isoform sequences that play a role in the renal transport system.22 Detailed molecular studies are therefore required to further characterize the underlying mechanisms.

Gender could potentially play a role in the differences observed between the two siblings. According to a report by Nagamori et al., heterodimeric partners of basic amino acid transporters in the proximal kidney tubule were found to be expressed in a pattern determined by the biological sex.23 This study suggests a modulating role of estrogen on the tubular amino acid transport.

In summary, HCS is a complex genetic syndrome complicated by the variable presentation of clinical symptoms in early life and kidney dysfunction with urolithiasis later in life. The mechanism underlying mitochondrial dysfunction remains obscure. We speculate that oxidative stress may contribute but direct measures of GSH will be necessary to support this speculation. Management of GH deficiency clearly is indicated but, again, the mechanism underlying this endocrine disturbance needs to be elucidated.

Acknowledgment

The authors are thankful to the family for their time and continued support.

Conflict of Interest

The authors are not aware of any conflict of interest involved in this report.

Funding Information

No funding information provided.

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