The case of a patient with MIRAGE syndrome with familial dysautonomia-like symptoms

Living without pain. Case series of patients with hereditary sensory and autonomic neuropathies in a Canadian tertiary care centre

Background

Hereditary sensory and autonomic neuropathies (HSANs) are a group of heterogeneous genetic disorders presenting predominantly with sensory and autonomic dysfunction. They are a diverse group of diseases of the peripheral nervous system characterized by profound distal sensory loss and various autonomic and motor disturbances.

Objectives

The primary objective of this study was to describe the clinical presentation of children with HSAN to paediatricians. We present clinical features and genetic etiology of patients with HSAN followed in a Canadian tertiary paediatric centre, including suggestions for their monitoring, management, and long-term follow-up.

Methods

A retrospective chart review of all patients with HSAN followed from the years 2000 through 2021 was performed. Collected data consisted of patients' demographics, clinical characteristics, imaging, and management.

Results

Eight patients were included. The average age at diagnosis was 3.19 ± 2.83 years. Insensitivity to pain (100%), dysautonomia (100%), global development delay (87.5%), emesis (62.5%), and self-injury (62.5%) were the most prevalent manifestations of HSAN. The most common co-morbidities were gastroesophageal reflux disease (50%), obstructive sleep apnea (37.5%), attention-deficit hyperactivity disorder (37.5%), and iron deficiency (37.5%). Management was multi-disciplinary, involving neurologists, orthopeds, developmental paediatricians, sleep specialists, and psychiatrists.

Conclusion

HSANs are a diverse group of diseases, characterized by profound distal sensory loss, acral mutilations, and variable autonomic disturbances. It is important to recognize the diagnosis in the paediatrician's office in order to set up surveillance and prevent complications.

Emerging phenotypes linked to variants in SAMD9 and MIRAGE syndrome

Background

Heterozygous de novo variants in SAMD9 cause MIRAGE syndrome, a complex multisystem disorder involving Myelodysplasia, Infection, Restriction of growth, Adrenal hypoplasia, Genital phenotypes, and Enteropathy. The range of additional clinical associations is expanding and includes disrupted placental development, poor post-natal growth and endocrine features. Increasingly, milder phenotypic features such as hypospadias in small for gestational age (SGA) boys and normal adrenal function are reported. Some children present with isolated myelodysplastic syndrome (MDS/monosomy 7) without MIRAGE features.

Objective

We aimed to investigate: 1) the range of reported SAMD9 variants, clinical features, and possible genotype-phenotype correlations; 2) whether SAMD9 disruption affects placental function and leads to pregnancy loss/recurrent miscarriage (RM); 3) and if pathogenic variants are associated with isolated fetal growth restriction (FGR).

Methods

Published data were analyzed, particularly reviewing position/type of variant, pregnancy, growth data, and associated endocrine features. Genetic analysis of SAMD9 was performed in products of conception (POC, n=26), RM couples, (couples n=48; individuals n=96), children with FGR (n=44), SGA (n=20), and clinical Silver-Russell Syndrome (SRS, n=8), (total n=194).

Results

To date, SAMD9 variants are reported in 116 individuals [MDS/monosomy 7, 64 (55.2%); MIRAGE, 52 (44.8%)]. Children with MIRAGE features are increasingly reported without an adrenal phenotype (11/52, 21.2%). Infants without adrenal dysfunction were heavier at birth (median 1515 g versus 1020 g; P < 0.05) and born later (median 34.5 weeks versus 31.0; P < 0.05) compared to those with adrenal insufficiency. In MIRAGE patients, hypospadias is a common feature. Additional endocrinopathies include hypothyroidism, hypo- and hyper-glycemia, short stature and panhypopituitarism. Despite this increasing range of phenotypes, genetic analysis did not reveal any likely pathogenic variants/enrichment of specific variants in SAMD9 in the pregnancy loss/growth restriction cohorts studied.

Conclusion

MIRAGE syndrome is more phenotypically diverse than originally reported and includes growth restriction and multisystem features, but without adrenal insufficiency. Endocrinopathies might be overlooked or develop gradually, and may be underreported. As clinical features including FGR, severe infections, anemia and lung problems can be non-specific and are often seen in neonatal medicine, SAMD9-associated conditions may be underdiagnosed. Reaching a specific diagnosis of MIRAGE syndrome is critical for personalized management.

Discovery of MIRAGE syndrome

Since the first report in 2009, whole exome sequencing has become the most effective and efficient research tool in human genetics. MIRAGE syndrome is a novel single-gene disorder discovered through whole-exome sequencing for pediatric patients with adrenal insufficiency of unknown etiology, and is caused by de novo heterozygous variants in SAMD9. MIRAGE syndrome was initially discovered as a systemic disease affecting multiple systems, including hematopoietic, immune, endocrine, and gastrointestinal systems but later studies revealed a subset of patients with myelodysplastic syndrome as the sole manifestation. In addition, pathogenic variants in SAMD9L, a paralog gene of SAMD9, were reported to cause an inherited disorder of the hematopoietic system and central nervous system, called ataxia-pancytopenia syndrome. This article reviews the history of MIRAGE syndrome from its discovery to the proposal of SAMD9/SAMD9L syndromes, and discusses directions for future research.