A novel missense mutation affecting the same amino acid as the recurrent PACS1 mutation in Schuurs-Hoeijmakers syndrome

Phosphofurin Acidic Cluster Sorting Protein 1 Syndrome: Insights Gained on the Multisystem Involvement Reviewing Encoded Protein Interactions?

Mutations in PACS1 cause moderate-to-severe intellectual disability. Very few cases of PACS1 neurodevelopment disorder have been described in the literature that were identified using whole exome sequencing (WES). We report a case of de novo PACS1 mutation identified through WES after an initial workup for mucopolysaccharidosis. Through this case, we wish to emphasize that most important clinical clue in the facial gestalt is a downturned angle of mouth, thin lips, and wide mouth, giving characteristic wavy appearance of face that can distinguish these cases and can prevent unnecessary workup for the patients.

A case report of retinal dystrophy in patients with PACS1 syndrome

PACS1 syndrome, also referred to as Schuurs-Hoeijmakers syndrome, is a multisystemic developmental disorder caused by a specific pathogenic variant in the PACS1 (phosphofurin acidic cluster sorting protein 1) gene. Ocular findings in PACS1 syndrome are known to include iris, retina, optic nerve coloboma, myopia, nystagmus, and strabismus. Here, we present the cases of two patients referred to the University of Wisconsin-Madison Department of Ophthalmology and Visual Sciences for ocular evaluation. The first patient is a 14-month-old female who, at 3 months of age, was found to have a depressed rod and cone response on electroretinogram (ERG), consistent with possible retinal dystrophy (RD). This feature has not been previously described in PACS1 syndrome and joins a growing list of calls for expanding the PACS1 phenotype. The second case illustrates a 5-year-old male referred for ocular screening after diagnosing PACS1 syndrome and underwent ERG without abnormal findings. These cases demonstrate the significant variability in the ophthalmic presentation of PACS1 syndrome and the need for early screening. These novel findings may have implications in understanding the mechanism of the PACS1 protein and its role in retinal ciliary phototransduction in photoreceptors.

iPSC-derived models of PACS1 syndrome reveal transcriptional and functional deficits in neuron activity

PACS1 syndrome is a neurodevelopmental disorder characterized by intellectual disability and distinct craniofacial abnormalities resulting from a de novo p.R203W variant in phosphofurin acidic cluster sorting protein 1 (PACS1). PACS1 is known to have functions in the endosomal pathway and nucleus, but how the p.R203W variant affects developing neurons is not fully understood. Here we differentiated stem cells towards neuronal models including cortical organoids to investigate the impact of the PACS1 syndrome-causing variant on neurodevelopment. While few deleterious effects were detected in PACS1(+/R203W) neural precursors, mature PACS1(+/R203W) glutamatergic neurons exhibited impaired expression of genes involved in synaptic signaling processes. Subsequent characterization of neural activity using calcium imaging and multielectrode arrays revealed the p.R203W PACS1 variant leads to a prolonged neuronal network burst duration mediated by an increased interspike interval. These findings demonstrate the impact of the PACS1 p.R203W variant on developing human neural tissue and uncover putative electrophysiological underpinnings of disease.

PACS gene family-related neurological diseases: limited genotypes and diverse phenotypes

BACKGROUND

The PACS gene family has been demonstrated to be related to intracellular vesicular trafficking. The phenotypic manifestations caused by the pathogenic variants of PACS include epilepsy, intellectual disability/developmental delay, and malformations, such as facial abnormalities.

METHODS

We identified seven new cases with pathogenic or likely pathogenic PACS variants using next-generation sequencing. Detailed information obtained from these patients was analyzed along with that obtained from previously reported patients.

RESULTS

With the inclusion of the newly diagnosed cases in this study, 103 cases with PACS gene family-related neurological diseases were reported, of which 43 were PACS2-related cases and the remaining were PACS1-related cases. Most patients had seizures, which have been reported to be effectively controlled by several types of anti-seizure medications (ASMs). The most efficacious and frequently prescribed ASMs included sodium valproate (43.3%, 13/30), oxcarbazepine/carbamazepine (26.7%, 8/30), and levetiracetam (20%, 6/30). Almost all patients had intellectual disability/developmental delay. The most common pathogenic missense variants were PACS1 p. Arg203Trp and PACS2 p.Glu209Lys. In addition, we report a patient carrying a likely pathogenic copy number variation (CNV) (de novo heterozygous deletion of chr14:105821380-106107443, 286 kilobase, destroyed part of the furin-binding region domain and the protein structure after it) with more severe and refractory late-onset epilepsy.

CONCLUSIONS

The clinical phenotypes of the different PACS heterozygous missense variants were similar. The pathogenic variant sites of PACS1 and PACS2 were quite limited but located in different regions. A CNV destroying part of the PACS2 gene might also be pathogenic. These findings may provide an important clue for further functional studies on the pathogenic mechanism of neurological disorders related to the PACS gene family. Video Abstract (MP4 65767 kb).

Genetic characterization of Schuurs-Hoeijmakers syndrome in a moroccan individual with heterozygote PACS1 mutation

BACKGROUND

Schuurs-Hoeijmakers syndrome, an autosomal dominant neurodevelopmental genetic disorder, is a rare cause of intellectual disability (ID) affecting approximately 1 to 3% of all over the world. Only 87 cases have been recorded to date, and oddly enough, the majority of them share the same mutation (c.607 C > T; p.R203W).

CASE PRESENTATION

This study presents the first reported case in Morocco of a 12-year-old female patient with PACS1 syndrome, identified during a cohort study of 24 patients with intellectual disability. The syndrome is caused by a de novo mutation of the PACS1 gene, located on chromosome 11, resulting in a single amino acid modification on the PACS1 protein. The abnormal protein disrupts cellular transport processes, leading to intellectual developmental delay, facial dysmorphia, and congenital anomalies.

METHODS AND RESULTS

Exome sequencing was employed to identify the genetic mutation, and Sanger sequencing validated the presence of the recurrent mutation c.607 C > T (p.Arg203Trp) in the PACS1 gene. The mutation was found to be heterozygous and de novo, suggesting that it was not inherited from the patient's parents. Classification based on the American College of Medical Genetics and Genomics (ACMG) criteria confirmed its pathogenicity, with supporting evidence from bioinformatics analysis. The rarity of this variant in population databases further supports its pathogenic nature.

CONCLUSION

This study expands our understanding of Schuurs-Hoeijmakers syndrome, a disorder with limited reported cases globally. The genetic heterogeneity of the disorder is highlighted, with the recurrent mutation being the most common pathogenic variant. Functional studies indicate the crucial role of PACS1 in craniofacial development and neurodevelopmental processes, with potential implications for autism spectrum disorders (ASD). Comprehensive genetic analyses are essential for accurate diagnosis and understanding the underlying causes of intellectual disabilities. Further research is warranted to unravel the mechanisms and potential therapeutic targets associated with PACS1-related neurodevelopmental disorders.

Molecular Basis of the Schuurs-Hoeijmakers Syndrome: What We Know about the Gene and the PACS-1 Protein and Novel Therapeutic Approaches

The Schuurs−Hoeijmakers syndrome (SHMS) or PACS1 Neurodevelopment Disorder (PACS1-NDD) is a rare autosomal dominant disease caused by mutations in the PACS1 gene. To date, only 87 patients have been reported and, surprisingly, most of them carry the same variant (c.607C>T; p.R203W). The most relevant clinical features of the syndrome include neurodevelopment delay, seizures or a recognizable facial phenotype. Moreover, some of these characteristics overlap with other syndromes, such as the PACS2 or Wdr37 syndromes. The encoded protein phosphofurin acid cluster sorting 1 (PACS-1) is able to bind to different client proteins and direct them to their subcellular final locations. Therefore, although its main function is protein trafficking, it could perform other roles related to its client proteins. In patients with PACS1-NDD, a gain-of-function or a dominant negative mechanism for the mutated protein has been suggested. This, together with the fact that most of the patients carry the same genetic variant, makes it a good candidate for novel therapeutic approaches directed to decreasing the toxic effect of the mutated protein. Some of these strategies include the use of antisense oligonucleotides (ASOs) or targeting of its client proteins.

In search of a cure: PACS1 Research Foundation as a model of rare disease therapy development

Rare diseases affect nearly 400 million people worldwide and have a devastating impact on patients and families. Although these diseases are collectively common, they are often overlooked by the research community. We present the ongoing work of the PACS1 Syndrome Research Foundation as a paradigm for approaching rare disease research.

PACS1-Neurodevelopmental disorder: clinical features and trial readiness

Background

PACS1-Neurodevelopmental Disorder (PACS1-NDD) is an ultra-rare condition due to a recurrent mutation in the PACS1 gene. Little systematically collected data exist about the functional abilities and neurodevelopmental morbidities in children with PACS1-NDD

Methods

Parents of individuals with PACS1-NDD completed an on-line survey designed collaboratively by researchers, parents, and clinicians. Analyses focused on those with a confirmed R203W variant.

Results

Of 35 individuals with confirmed variants, 18 (51%) were female. The median age was 8 years (interquartile range 4.5–15). Seventeen (49%) had a diagnosis of epilepsy. Twelve (40%, of 30 responding to the question) reported autism and (N = 11/30, 37%) reported features of autism. Most children walked independently (N = 29/32, 91%), had a pincer grasp (N = 23/32, 72%), could feed themselves independently (N = 15/32, 47%), and used speech (N = 23/32, 72%). Sixteen of twenty-nine (55%) had simple pre-academic skills. Neither epilepsy nor autism was associated with functional abilities or other clinical features (all P > 0.05).

Conclusions

PACS1-NDD is a moderately-severe intellectual disability syndrome in which seizures occur but are not a defining or primary feature. Successful precision medicine clinical trials for this ultra-rare disorder must target important core features of this disorder and utilize assessment tools commensurate with the level of function in this clinical population.

A Novel Multi-Exon Deletion of PACS1 in a Three-Generation Pedigree: Supplements to PACS1 Neurodevelopmental Disorder Spectrum

PACS1 neurodevelopmental disorder (PACS1-NDD) is a category of rare disorder characterized by intellectual disability, speech delay, dysmorphic facial features, and developmental delay. Other various physical abnormalities of PACS1-NDD might involve all organs and systems. Notably, there were only two unique missense mutations [c.607C > T (p.Arg203Trp) and c.608G > A (p.Arg203Gln)] in PACS1 that had been identified as pathogenic variants for PACS1-NDD or Schuurs-Hoeijmakers syndrome (SHMS). Previous reports suggested that these common missense variants were likely to act through dominant-negative or gain-of-function effects manner. It is still uncertain whether the intragenic deletion or duplication in PACS1 will be disease-causing. By using whole-exome sequencing, we first identified a novel heterozygous multi-exon deletion covering exons 12-24 in PACS1 (NM_018026) in four individuals (two brothers and their father and grandfather) in a three-generation family. The younger brother was referred to our center prenatally and was evaluated before and after the birth. Unlike SHMS, no typical dysmorphic facial features, intellectual problems, and structural brain anomalies were observed among these four individuals. The brothers showed a mild hypermyotonia of their extremities at the age of 3 months old and recovered over time. Mild speech and cognitive delay were also noticed in the two brothers at the age of 13 and 27 months old, respectively. However, their father and grandfather showed normal language and cognitive competence. This study might supplement the spectrum of PACS1-NDD and demonstrates that the loss of function variation in PACS1 displays no contributions to the typical SHMS which is caused by the recurrent c.607C > T (p.Arg203Trp) variant.

WITHDRAWN: Schuurs-Hoeijmakers syndrome: Severe expression of the recurrent PACS1 c.607C>T mutation

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Schuurs-Hoeijmakers Syndrome (PACS1 Neurodevelopmental Disorder): Seven Novel Patients and a Review

Schuurs–Hoeijmakers syndrome (SHMS) or PACS1 Neurodevelopmental disorder is a rare disorder characterized by intellectual disability, abnormal craniofacial features and congenital malformations. SHMS is an autosomal dominant hereditary disease caused by pathogenic variants in the PACS1 gene. PACS1 is a trans-Golgi-membrane traffic regulator that directs protein cargo and several viral envelope proteins. It is upregulated during human embryonic brain development and has low expression after birth. So far, only 54 patients with SHMS have been reported. In this work, we report on seven new identified SHMS individuals with the classical c.607C > T: p.Arg206Trp PACS1 pathogenic variant and review clinical and molecular aspects of all the patients reported in the literature, providing a summary of clinical findings grouped as very frequent (≥75% of patients), frequent (50–74%), infrequent (26–49%) and rare (less than ≤25%).

Prenatal and postnatal diagnosis of Schuurs-Hoeijmakers syndrome: Case series and review of the literature

Schuurs-Hoeijmakers syndrome (SHS) is a rare syndrome involving a de novo variant in the PACS1 gene on chromosome 11q13. There are 36 individuals published in the literature so far, mostly diagnosed postnatally (34/36) after recognizing the typical facial features co-occurring with developmental delay, intellectual disability, and multiple malformations. Herein, we present one prenatal and 15 postnatal cases with the recurrent heterozygous pathogenic variant NM_018026.3:c.607C>T p.(Arg203Trp) in the PACS1 gene detected by exome sequencing. These 16 cases were identified by mining Centogene and the Hong Kong clinical genetic service databases. Collectively, the 49 postnatally diagnosed individuals present with typical facial features and developmental delay, while the three prenatally diagnosed individuals present with multiple congenital anomalies. In the current study, the use of exome sequencing as an unbiased diagnostic tool aided the diagnosis of SHS (pre- and postnatally). The identification of additional cases with SHS add to the current understanding of the clinical phenotype associated with pathogenic PACS1 variants. Databases combining clinical and genetic information are helpful for the study of rare diseases.

Schuurs-Hoeijmakers syndrome in a patient from India

Schuurs-Hoeijmakers syndrome (SHMS), or Autosomal Dominant Mental Retardation Syndrome type 17 (MRD17) is a rare form of intellectual disability with distinct facial features. A recurrent de novo heterozygous c.607C>T, p.Arg203Trp mutation in the PACS1 gene accounts for all reported cases except for one patient with a de novo heterozygous c.608G>A, p.Arg203Trp mutation. Ethnic background is known to affect the clinical manifestation of dysmorphic syndromes. Here we describe the first Indian patient with Schuurs-Hoeijmakers syndrome (SHMS) with a de novo heterozygous NM_018026.3 (PACS1):c.607C>T (p.Arg203Trp) variant. He is the only child with SHMS with a cleft lip. Thus our report expands the phenotypic spectrum of SHMS and establishes its occurrence across populations.