A new GNPAT variant of foetal rhizomelic chondrodysplasia punctata

Abstract Background Rhizomelic chondrodysplasia punctata (RCDP) is a clinical entity resulting from defects of peroxisomal metabolism whose clinical phenotype is characterized by rhizomelia, calcified foci in periarticular cartilage, coronal lesions of vertebral bodies, cataracts and severe cognitive delay. Usually, survival does not exceed the first decade of life. Transmission is autosomal recessive and is related to mutations in the PEX7, GNPAT or AGPS. Methods A detailed description of the prenatal ultrasound signs of RCDP found in two successive pregnancies in a consanguineous couple is reported. Molecular genetic investigations included the study of the coding regions and the exon–intron junctions of the GNPAT (high‐throughput amplification and sequencing performed with Roche NimbleGen SeqCap Target kit on Illumina platform); the confirmation test was carried out by amplification and Sanger sequencing with automatic capillary sequencer. Results In addition to the typical prenatal ultrasound signs described in the literature in association with RCDP, the presence of prefrontal oedema, never previously described, has been detected in both pregnancies. Moreover, genetic investigations have found a new splicing variant c.924+1G>A of the homozygous GNPAT. Conclusion The role of mutation in the GNPAT suggests a likely association with the clinical phenotype.

During the first pregnancy, the patient was referred to our Prenatal Diagnosis Center at 21 weeks, after recording shortness of both humeri during the foetal morphological scan (25.6 mm corresponding to <1st percentile; Z score −3.831 (Chitty & Altman, 2002 Aug)). At the second level ultrasound examination at 21 + 4 weeks, the humerus length was in line with the measure previously detected, considering the normal range of variability inherent in the methodology (24.5 mm corresponding to <1st percentile; Z score −4.917 (Chitty & Altman, 2002) and, in addition, calcifications at the humeral epiphysis and prefrontal oedema on a mid-sagittal view of foetal profile (7 mm, corresponding to >99th percentile (Levaillant et al., 2005) were detected. Prefrontal oedema was found. No further abnormalities emerged; in particular, the length of radius, ulna, femur, tibia and fibula remained within the reference percentiles for the gestational age. The rhizomelia associated with the presence of epiphyseal calcifications led the suspect to a severe form of RCDP. After genetic counselling the couple decided to terminate the pregnancy. A late amniocentesis was performed in order to initiate targeted molecular genetic investigations. Foetal autopsy confirmed the shortness of the humeri with regular representation of the other skeletal segments, regular skull and chest conformation. The microscopic examination did not reveal any other associated organ abnormalities.
Despite the contrary opinion of health care professionals, the couple embarked on a new pregnancy before waiting for the outcome of the molecular genetic investigations on the amniotic fluid of the first foetus. However the second pregnancy was followed early by our Prenatal Diagnosis Center; during the first-trimester scan a nuchal translucency >95th percentile was detected (3.10 mm at 12 + 2 weeks) with a positive screening test for Down syndrome (1/76); the early foetal morphological scan at 17 + 5 weeks revealed a humerus length towards the lower limits for gestational age (20.5 mm corresponding to 1st percentile; Z score: −2.379 (Chitty & Altman, 2002) with the presence of epiphyseal calcifications; the study of the foetal profile on a mid-sagittal view also showed prefrontal oedema (4.6 mm, corresponding to >99th percentile (Levaillant et al., 2005). These elements made the picture perfectly superimposable on that of the previous pregnancy, allowing us to predict the same evolution. At the ultrasound follow-up at 19 + 5 weeks the diagnosis of RCDP was clear: the growth of both humeri was significantly slowed down (23.4 mm corresponding to <1st percentile; Z score −3.411 (Chitty & Altman, 2002), epiphyseal calcifications had increased and prefrontal oedema was accentuated (5.5 mm, corresponding to >99th percentile (Levaillant et al., 2005) (Figure 1a). After the new genetic counselling, the couple decided to terminate the pregnancy for the second time, two years after the first interruption. The radiographs of the foetal skeleton ( Figure 1b) showed characteristic calcifications on the periarticular cartilage. Foetal autopsy confirmed the shortness of both humeri without other skeletal and organ abnormalities. Due to the strong suspicion of an RCDP, the foetal tissues were analysed for the PEX7, GNPAT and AGPS, known to be involved in RCDP and a splicing variant c.924+1G>A of the homozygous GNPAT was found (reference sequence number of GNPAT: NM_14236.3).
Chondrodysplasia punctata is a rare, multisystem, developmental disorder first described by Erich Conradi. Type 1 RCDP (OMIM *215100) is caused by homozygous or compound heterozygous mutation in the PEX7, which encodes the peroxisomal type 2 targeting signal receptor on chromosome 6q23. Type 2 RCDP (OMIM *222765) is caused by a mutation in the gene encoding acyl-CoA:dihydroxyacetonephosphate acyltransferase (GNPAT) on chromosome 1q42. Type 3 RCDP (OMIM *600121) is caused by mutation in the gene encoding alkyldihydroxyacetonephosphate synthase (alkyl-DHAP synthase) on chromosome 2q31. Type 5 RCDP (OMIM *616716) is caused by mutation in the gene encoding peroxisomal biogenesis factor-5 (OMIM *600414 PEX5) on chromosome 12p13 (OMIM® Online Mendelian Inheritance in Man®; Waterham & Ebberink, 2012). While RCDP1 is a peroxisomal biogenesis disorder, RCDP2 and RCDP3 are classified as single peroxisome enzyme deficiencies (Heymans et al., 1985;Waterham & Ebberink, 2012). Prevalence of the rhizomelic type is estimated at 1 in 100,000 live births. Postnatal diagnosis is based on clinical and radiological findings and can be confirmed by molecular analysis. Prenatal diagnosis is possible when the causative mutation has already been identified in the family. RCDP has a severe prognosis with death generally occurring during the first decade of life, mainly due to respiratory complications. Clinically speaking, RCDP is characterized by severe bilateral shortening and metaphyseal changes of femora and/or humeri, microcephaly, characteristic facial features including a broad nasal bridge, epicanthus, high-arched palate, dysplastic external ears and micrognathia, congenital contractures, characteristic ocular involvement and severe psychomotor retardation and spasticity. There are several different disorders with similar punctate cartilaginous changes, for example Xlinked chondrodysplasia punctate, the multiple forms of the Zellweger syndrome, maternal ingestion of certain anticoagulants (dicoumarol or warfarin) in early pregnancy and even occasionally trisomy 18.
There are only few reports of prenatal diagnosis of RCDP in the Medline literature (Başbuğ et al., 2005;Brookhyser et al., 1999;Duff et al., 1990 Sep;Erdogdu et al., 2016;Gendall et al., 1994;Hertzberg et al., 1999;Sastrowijoto et al., 1994). The pattern recognition is based on the combination of rhizomelic bone shortening and epiphyseal stippling. An author suggested the role of bilateral cataracts in suspecting the diagnosis (Gendall et al., 1994). A recent literature review highlights how the prenatal diagnosis of epiphyseal stippling  Although the diagnosis of this type of chondrodysplasia is genetic, we believe that it is important already in the prenatal period to try to define the subtype of suspected chondrodysplasia because the associated prognosis varies considerably: from mild forms with a good life expectancy to very severe forms. Based on the diagnostic signs reported in the literature we can affirm that the main unfavourable prognostic factor is the presence of rhizomelia (typical of type 2, 3 and 5 RCDP) while the most favourable prognostic factors are the symmetrical shortness of long bones and the nose/maxillary hypoplasia known as Binder phenotype. Table 1 summarizes the published works on prenatal diagnosis of RCDP with the related ultrasound signs.
In the reported case, the circumstance of having followed two affected foetuses in two successive pregnancies allowed the obtainment of perfectly overlapping images with highly specific signs of RCDP: shortness of both humeri, prefrontal oedema, epiphyseal stippling ( Figure 1a). There was no saddling of the root of the nose with Binder phenotype, no spine irregularity, no brachytelephalangy and no cataracts. The length of the other skeletal segments was in accordance with the gestational age. Counselling was therefore directed towards a form of dysplasia with a more severe prognosis (unlike the more frequent type 1).
For the first time, the presence of prefrontal oedema (defined as the distance from nasal bone synostosis towards the front following an orthogonal angle at 45° with calipers set on to on (Levaillant et al., 2005) has been described as an ultrasound sign associated with RCDP ( Figure 1a). This space was 7 mm at 21 weeks (corresponding to >95th percentile [Levaillant et al., 2005 Dec]) during the scan examination in the first pregnancy and 4.6 mm at 17 weeks (corresponding to >95th percentile (Levaillant et al., 2005) during the scan performed in the second pregnancy ( Figure  1a). The thickness of the prefrontal space has been described in the literature as an ultrasound marker of Down's syndrome (De Jong-Pleij et al., 2012;Persico et al., 2008). However, it represents a non-specific ultrasound sign, which is also common to different genetic diseases. In the proposed case, its presence in two foetuses affected by the same type of RCDP suggests that the modification of prefrontal connective tissue could be a phenotypic sign associated with the new genetic variant described in the GNPAT. However, the small number of cases requires us to be cautious and to wait for further reports.
Genetic investigations included the study of the coding regions and the exon-intron junctions of the GNPAT (highthroughput amplification and sequencing performed with