Cutis verticis gyrata and Noonan syndrome: report of two cases with pathogenetic variant in SOS1 gene

This patient was a first child of Caucasian, non-consanguineous and apparently healthy parents, born at 36 + 2 weeks of gestation by emergency cesarean section for an abnormal cardiotocographic tracing, after a pregnancy complicated by polyhydramnios detected in the first trimester along with gestational diabetes. At birth his weight was 3000 g (76^th centile, 0.72 SD), length 48 cm (22^nd centile, 0.22 SD) and head circumference (HC) 35 cm (93^rd centile, 1.49 SD) (A). He underwent neonatal resuscitation with an Apgar score 6 and 7 at 1 and 5 min, respectively, and subsequently hospitalized cause respiratory problems needing noninvasive ventilatory support for two days.

Physical examination revealed cutis verticis gyrata in the frontoparietal and nucal regions with presence of hair in the deep furrows but not in the convoluted fold (Fig. 1), high broad forehead, hypertelorism, flat nose root, low-set, thick and posteriorly rotated ears, thin upper lip, short neck and bilateral cryptorchidism. Neurologically he showed axial hypotonia. At 2 months corrected age (CA) his dysmorphic traits were unchanged, and his growth parameters were as follows: weight 5290 g (44^th centile, -0.143 SD), length 56,5 cm (16^th centile, 0.99 SD) and HC 38,5 cm (33^rd centile, -0.44 SD) (B). An echocardiographic control revealed a mild pulmonary valve stenosis, and a neurodevelopmental evaluation showed a global profile adequate for the CA. Between 6 and 8 months CA an individualized follow-up included an echocardiogram that showed a patent foramen ovale with left–right shunt, mitral valve dysplasia with slight acceleration and electrocardiographic signs of mild ventricular hypertrophy. Ophthalmological evaluation showed high degree hyperopia with astigmatism and flash-visual evoked potentials showed increased P100 latencies bilaterally. At 8 months CA his HC was 40 cm (-3.7 SD) with right occipito-parietal plagiocephaly. He showed a severe central type generalized hypotonia with inability to raise the head in the prone position and to disengage the upper limbs with minimal head lifting. Spontaneous motricity was severely reduced with inability to reach the midline with his hands, to approach the rattle, eventually to hold it and no pointing. He was not able to attain the upright sitting position along with absent lateral propping bilaterally. Nevertheless, he showed an adequate reciprocal visual engagement, ability to follow the rattle, smile, environmental participation, and babbling. A brain MR showed asymmetry of the temporal ventricular horns, with dilatation of the right one and wide Sylvian fissures. In the dorso-nucal region cutis verticis gyrata appeared redundant and elongated. EEG, auditory evoked potentials, and abdominal ultrasound were normal.

This second patient was a second child of non-consanguineous and apparently healthy Maghrebi parents, born at 38 weeks of gestation by elective cesarean section. At birth his weight was: 4500 g (3.65 SD), length 50,2 cm (67^th centile, 0.45 SD) and head circumference 36 cm (98^th centile, 2.09 SD) (A). He underwent neonatal resuscitation with an Apgar score 2 and 8 at 1 and 5 min, respectively, and subsequently hospitalized cause respiratory problems needing first invasive ventilation and then noninvasive ventilation with nasal cannulae for a total of 8 days. At 14 days of life he was transferred to our University hospital for diagnostic investigations. Physical examination revealed cutis verticis gyrata more prominent on the left side of the vertex, anteverted nostrils, cup shaped and posteriorly rotated ears, large mongolian spot in the sacral region, normal-shaped chest with teletelia, normal male genitals. Neurological examination showed a central type axial hypotonia, with poor repertoire of spontaneous motility along with weak suction. During hospitalization an echocardiogram showed a patent foramen ovale with left–right shunt and mild dysplasia and stenosis (gradient max 25 mmHg) of the pulmonary valve. Head ultrasound showed normal ultrasound appearance of the cerebral parenchyma and ventricular system with wider left frontal horn of the lateral ventricle. Blood tests, thyroid function, eye examination and ultrasound abdomen were normal. A brain MRI at 1 month of age showed widening of the periencephalic liquoral spaces and in the left hemisphere reduced development of the temporal lobe and opercular region of the frontal lobe, associated with a modest greater amplitude of the left ventricular sections compared to the right hemisphere. Incomplete rotation of the left hippocampus and hypoplastic corpus callosum, a lower insertion of the tentorium, with modest reduction in size and thickness of the worm and greater amplitude of the quadrigeminal and supravermian cisterns. A marked thickening of the subgaleal soft tissues was present in the occipital-parietal area, with greater evidence on the left side, and at the vertex. At 4 months auditory evoked potentials showed an auditory threshold of 40 dB HL in the left ear and 30 dB HL in the right one. Since an individualized follow-up showed early sings of generalized developmental delay, the infant was enrolled in a rehabilitation program. He attained the upright sitting position at 8 months, and walking at 19 months. At 29 months of age his weight was 13.800 gr (65^th centile, 0.39 SD), length 85 cm (3^rd centile, 1.92 SD) and HC 52 cm (99^th centile, 2.25 SD) with normocephalic parents (C) (Fig. 2). Neurodevelopmental assessment showed a mild degree of central type generalized hypotonia with clumsiness, he was able to go up and down the stairs held by the hand, he could pronounce a few two words understandable phrases and to carry out simple orders, but was unable to say its own name. The area of fine motor skills and praxis was the most appropriate for the chronological age since he was able to build a tower of eight cubes and copy the circle and straight lines. Social behavior was characterized by an initial shyness, with subsequent willingness to interact with the examiner in a pleasant and collaborative way.

This exon was subsequently sequenced using the sanger approach for both proband validation and parental segregation analysis.

In the case 1 the segregation study revealed that the variant was originated from the mother presenting only the NS peculiar facial traits, while in case 2 it showed the de novo origin of the variant.

The c.508 A > G, p.Lys170Glu (K170E) variant involves the codon 170 of SOS1 gene, residing in exon 4 that codes for the HF domain (residues 1–191). Consequently it affects the interaction between the HF, DH, and PH domains, perturbing the overall autoinhibited conformation in which the HF and DH domains block the protein, thus resulting in deleterious effect through its gain of function.

It is reported in all the databases consulted: LOVD v 3.0 (Leiden Open Variation Database, https://​databases.​lovd.​nl/​), ClinVar (http://​www.​ncbi.​nlm.​nih.​gov/​clinvar/​), HGMD Professional 2021.4 (The Human Gene Mutation Database, ([https://​portal.​biobase-international.​com/​hgmd/​pro/​gene.​php], /) as disease causing and according to the guidelines of the ACMG (American College of Medical Genetics) (Laboratory Practice Committee Working Group), this variant is considered to be pathogenic.

It should be emphasized that the ClinGen RASopathy Expert Panel defined the SOS1 gene to be a gene with a low rate of benign missense variants and high number of pathogenic missense variants, also highlighting that K170E variant is in a location that has been defined to be a mutational hotspot of SOS1 [10].

Moreover in vitro functional studies provide evidence that the K170E variant impacts protein, leading to gain-of-function, which is an established pathogenic mechanism in NS. Analyses of the variant protein shows increased activation of Ras in cell culture compared to wildtype, due to structural changes in the autoinhibitory HF domain [23, 34].

Finally this variant has been reported in four individuals with clinical features of Noonan syndrome, both in familiar cases and in two cases where this variant has occurred de novo [7, 19, 23, 24, 34].