Fibrosis, neurodegeneration, and cerebral angiomatosis (FINCA) syndrome is a rare disease (OMIM #618278) with only 10 cases described until now from six families (Uusimaa et al. 2018; Brodsky et al., 2020, Rapp et al., 2021). The reported cases carry variants in NHL repeat containing two gene (NHLRC2) (Biterova et al., 2018). In the first report, released in 2018, three Finnish patients were described (Uusimaa et al., 2018). In the second one, published in 2020, one Ukrainian patient was reported (Brodsky et al., 2020). These reports were followed by a recent publication of Rapp et al. (2021), reporting on six additional patients from three families. Patients with FINCA have multi-organ symptoms, which can be manifested along with feeding problems, growth failure, chronic diarrhea, malabsorption, recurrent bronchopulmonary infections, seizures, and lung fibrosis, leading to progressive respiratory failure in some, but not all patients. Patients described by the Finnish and Ukrainian group, and two patients described by Rapp et al. (2021) died before reaching the age of 3 (Uusimaa et al. 2018; Brodsky et al., 2020, Rapp et al., 2021). The respiratory disorder in all patients was progressive or exacerbated during infections. The remaining four patients of Rapp et al. (2021) survived into late childhood. The oldest patient described so far is 14 years old (Rapp et al., 2021). The NHLRC2 gene function remains generally uncharacterized (Nishi et al., 2017). NHLRC2 protein is present in several cell types and regions of the human brain. It participates in cellular organization and is responsible for regulating the cytoskeleton and vesicle transport (Paakkola et al., 2018). Thus, pathogenic variants in the NHLRC2 gene could cause uncontrolled tissue fibrosis and, therefore, can induce the differentiation of fibroblasts to myofibroblasts (Paakkola et al., 2018). The vesicular trafficking dysfunction was the proposed cause of predisposition to neurodegeneration in FINCA disease (Hiltunen et al., 2020). Other researchers suggest NHLRC2 plays an important role in regulating reactive oxygen species-induced apoptosis (Nishi et al., 2017). NHLRC2 dysfunction has not been associated with any other human diseases (Uusimaa et al., 2018). We aim to describe clinical features of three previously unreported patients with clinical features of FINCA syndrome and to characterize further the neurological and psychological phenotype of patients with variants in the NHLRC2 gene who survived into late childhood.

A genetic study was performed using NGS-based whole-exome sequencing (WES). WES was performed only in probands. Venous blood samples were collected from the probands and their families. DNA was isolated using DNeasy Blood and Tissue Kit (Qiagen) following the manufacturer's recommendations. In patient 1 and patient 2, WES was performed with SureSelectXT Human kit All Exon v7 (Agilent, Agilent Technologies), while in patient 3, Twist Human Core Exome (Twist Bioscience) was used. Then paired-end sequenced (2x100bp) on HiSeq 1500 (Illumina). Bioinformatics analysis of raw WES data and variants prioritization were performed as previously described (Śmigiel et al., 2020). Prioritized NHLRC2 variants: (g.113876631G>T, NM_198514.4:c.442G>T, p.(D148Y) and g.113884318G>T, NM_198514.4: c.977G>T, p.(G326V) were validated in the probands and their families by deep-amplicon sequencing (DAS) using Nextera XT Kit (Illumina) and sequenced on HiSeq 1500 (Illumina).

Runs of homozygosity (ROHs) were detected using the bcftools program as described previously (Narasimhan et al., 2016; Smigiel et al., 2018). The reference group consisted of WES data from 559 unrelated Polish subjects from a local database.

WES results revealed a homozygous missense variant in the NHLRC2 gene (g.113876631G>T, NM_198514.4:c.442G>T, p.(D148Y) in both patient 1 and 2. In addition, the DAS showed that in these cases, the variant was inherited from healthy parents and present in a heterozygous state in the healthy brother of patient 2. In patient 3, WES results revealed two missense variants in the NHLRC2. Heterozygous p.D148Y variant in the NHLRC2 gene inherited from healthy mother, and heterozygous variant (g.113884318G>T, NM_198514.4: c.977G>T, p.(G326V) inherited from healthy father and present in healthy sister.

In the ClinVar database, the p.(D148Y) variant was predicted as “pathogenic” (https://www.ncbi.nlm.nih.gov/clinvar). According to ACMG classification, the p.(G326V) variant was classified as “Variant of Uncertain Significance” (Tavtigian et al., 2018). In GnomAD, the p.(D148Y) variant was reported with an allele frequency of 0.0004338, while the p.(G326V) variant was absent in both, the public database (GnomAD) and in-house database of more than 300 WES of Polish individuals (https://gnomad.broadinstitute.org, v3.1.1). Based on 10 pathogenic predictions from BayesDel_addAF, DANN, EIGEN, FATHMM-MKL, LIST-S2, M-CAP, MVP, MutationAssessor, MutationTaster, and SIFT versus two benign predictions from DEOGEN2 and PrimateAI, the p.(G326V) variant was classified as pathogenic. According to the CADD, the p.(G326V) variant has a score value of 29.2.

The list of all variants which were considered during WES analysis is shown in File S1. For the variant (g. 4546230A>T, NM_032108.4, c.1724T>A, p.[L575*]) in the SEMA6B gene found in P11 we performed parental studies by Sanger sequencing which showed that the variant was maternally inherited.

The analysis of runs of homozygosity (ROH) showed no evidence for consanguinity of patients who were homozygous for the p.(D148Y) variant. The total ROH length for patient 1 and 2 was 40.96 and 27.02 Mb, respectively. Comparison with reference population showed, for patient P11 and P12 respectively, that 98% and 70% of unrelated Poles had total ROH length equal or longer than the patients. We also analyzed in P11 and P12 SNV markers available from WES in the neighborhood of the NHLRC2 gene in a search for a shared haplotype which could indicate a recent founder event. However, we found haplotype divergence (in either direction) already in the distance of <0.5 Mb from the causative NHLRC2 variant (File S2). This indicates that the sharing of homozygous NHLRC2 variant in patients P11 and P12 is not a consequence of patients being related. Furthermore, lack of conserved haplotype in proximity to NHLRC2 argues against p.(D148Y) being present in Polish population due to a relatively recent founder effect.

General data and comparing the clinical symptoms with other published cases that survived beyond early childhood are presented in Table 1. Considering that 10 patients have been described so far by other authors, we attributed numbers P11-P13 to patients reported by us. None of the Polish patients has neither visual impairment, hepatomegaly, cardiomegaly, nor progressive respiratory insufficiency, which were present in other cases ((Uusimaa et al. 2018; Brodsky et al., 2020, Rapp et al., 2021). Three patients had recurrent infections, Proband P11 has frequent upper respiratory tract infections, Proband P12 experienced bronchopulmonary infections only during the first year of life. In Proband P13, recurrent severe bronchopulmonary infections and diarrhea are still the main clinical problem at 10 years. After a gastrointestinal infection at the age of 6 months, feeding problems started. From then on, persistent diarrhea also appeared, intensifying during infection periods with up to 20 stools a day. She was admitted more than 10 times a year to a hospital for enterocolitis or pneumonia. Twice she developed bilateral pneumonia with acute respiratory insufficiency. Finally, at the age of 5, infections became less frequent (1–2 times a year), diarrhea reacted well to treatment with oral cromoglicic acid (Nalcrom), which was administered as a “last chance drug”, and because of suspicion of a partially allergic background of frequent stools, in the absence of severe eosinophilia and elevation of IgE. Two girls have epilepsy with focal and generalized seizures that are not frequent however, may lead to status epilepticus. Episodes morphology, interictal EEG, and reaction to pharmacotherapy are described in (Table 1).

TABLE 1 Clinical features of all known FINCA syndrome cases that survived into late childhood

Abbreviations: F, female; LAMI, lamotrigine; LEV, levetiracetam; M, male; NDA, no data available; TOPA, topiramate; VAL, valproate.

We have recorded one previously undescribed neuroradiological finding in Proband P13. During a 10-year follow-up, subsequent MRI studies of the brain did not reveal any significant clinical deviations in this patient. However, at the age of 10, thickening of the skull bones was noted in a routine MRI study (Figure 1), suggesting bone marrow hyperplasia.

Enlarge this image.

FIGURE 1. Head MRI (1.5 T) in a 10-year-old girl consistent with red marrow hyperplasia. (a) Sagittal T1WI revealed thickening of the diploic space of calvarial bones. Despite the cortical bone loss, the inner and outer tables of the calvarial bones are preserved (black arrowheads). The occipital bone separated with lambdoid suture (hollow arrowhead) is less widened due to the slighter residual bone marrow. (b) Axial T1WI indicates red bone marrow in the diploic space (white arrow) by presenting the same signal intensity as the temporal muscle (black arrow). (c) Coronal T2 FLAIR with fat saturation shows a similar signal intensity of calvarial, clival, and vertebral bone marrow (black arrows), without features of edema or fatty marrow transformation

We describe three Polish patients with rare FINCA syndrome. One of the cases is caused by compound heterozygous variants, the already described one (c.442G>T, p.(D148Y)) and a novel one (c.977G>T, p.(G326V)) in the NHLRC2 gene. In two cases, the homozygous mutation c.442G>T, p.(D148Y) was found. The same variant was previously found in Ukrainian, Jordanian, Greek, and Belgian patients. Thus, our findings further support the presence of a hot spot variant in the NHLRC2 gene.

Described by us, patients contribute to the 13 known cases of FINCA syndrome reported until now. Seven patients survived infancy. This gives the unique opportunity to observe the further development of patients with this syndrome. The clinical characteristics included intellectual disability with severely retarded speech expression, relatively preserved speech comprehension, and behavior problems. The last symptom combined aggression outbursts, attention deficit, and irritability. The presence of hand stereotypic movements, poor fine motor function, and severely impaired expression of speech inspired the initial diagnosis of the atypical Rett syndrome in two girls. Therefore, the NHLRC2 gene should be considered causative for atypical Rett syndrome (without microcephaly) and included in next-generation sequencing panels for Rett syndrome and Rett-like syndromes. The video presenting typical Rett syndrome stereotypic hand movements occurring in Proband P13 is included in the supplement.

Analysis of proteomes of the Nhlrc2^FINCA/− harboring the FINCA patient missense mutation p.(D148Y) exhibited the dysfunction in vesicular trafficking, compared to wildtype mice (Hiltunen et al., 2020). According to the authors it may be related to predisposition to neurodegeneration in FINCA disease (Hiltunen et al., 2020). Noteworthy, Sbardella et al. (2017) studied fibroblasts of patients with Rett syndrome and a mouse model of the syndrome and proposed that defective autophagy is also involved in the pathogenesis of Rett syndrome. Thus, it might partially explain clinical similarities in these two neurodegenerative syndromes.

Interestingly, all patients but one who survived beyond infancy were females. It may suggest a milder course of the disease related to the female gender. This hypothesis needs further confirmation in larger groups of patients.

None of the patients' survived infancy did show cerebral angiomatosis. Furthermore, patients reported by us did not show signs of neurodegeneration on MRI studies throughout the follow-up period. Interestingly, diarrhea in P13 was temporally resolved with the use of cromoglycic acid. This treatment was introduced without evident biochemical markers of an allergic background of symptoms, as a “last chance” solution. Cromoglycic acid prevents mast cell activation and degranulation, and inhibits neutrophil chemotaxis. The potential relation of dysfunction in the NHLRC2 gene and impairment of the function of mast cells and neutrophils should be further studied.

The connection between FINCA syndrome and calvarial red bone marrow hyperplasia, to our knowledge, is unclear. This phenomenon appears in response to systemic stresses such as red blood cell disorders, iron deficiency anemia, or hemolytic disorders (Gomez et al., 2018). Additionally, phenytoin has a well-documented effect on osteoblast activation and secondary calvarial thickening (Lau et al., 1995). However, neither of the above diseases were diagnosed in the patient described by us, nor was phenytoin used. There was also a lack of any clinical data suggesting abnormal mineral homeostasis. Such connection perhaps could be clearer in the intra or inter-patient comparative radiologic interpretation based on imaging documentation over a longer time.

A retrospective review of the clinical and diagnostic findings in three cases of Polish patients with FINCA under our care was made. Acceptation of the Ethical Board of Poznan University of Medical Sciences was not needed, as the data were collected retrospectively. All patients` caregivers gave their informed consent for molecular studies before testing. Patient's P13 caregivers gave their informed consent for publication of the video material.

The authors would like to thank Parents of our patients for their precious contribution to this work.

The authors declare no conflict of interest.

Conceptualization: Magdalena Badura-Stronka and Robert Śmigiel; Methodology: Rafał Płoski, Małgorzata Rydzanicz, Magdalena Badura-Stronka, and Robert Śmigiel; Formal analysis and investigation: Magdalena Badura-Stronka, Robert Śmigiel, Karolina Rutkowska, Krystyna Szymańska, Adam Sebastian Hirschfeld, Michał Monkiewicz, Joanna Kosińska, and Ewelina Wolańska, Writing - original draft preparation: Magdalena Badura-Stronka, Robert Śmigiel, Adam Sebastian Hirschfeld, Rafał Płoski, and Michał Monkiewicz; Writing - review and editing: Anna Latos-Bieleńska; Rafał Płoski, Adam Sebastian Hirschfeld, and Magdalena Badura-Stronka; Supervision: Anna Latos-Bieleńska and Rafał Płoski.

The data that support the findings of this study are available from the corresponding author upon reasonable request.