Exploring the Biological Overlapping Between Brain Calcifications and Tumorgenesis.

This article discusses a rare case of coexistent meningiomas and Primary familial brain calcification (PFBC). PFBC is a neurodegenerative disease characterized by brain calcifications and a variety of neuropsychiatric symptoms and signs, with pathogenic variants in specific genes. The study explores the potential link between PFBC and meningiomas, highlighting shared features like intralesional calcifications and common genes such as MEA6. The article also revisits PFBC patients developing other brain tumors, particularly gliomas, emphasizing the intersection of oncogenes like PDGFB and PDGFRB in both calcifications and tumor progression. In recent investigations, attention has extended beyond brain tumors to breast cancer metastasis, unveiling a noteworthy connection. These findings suggest a broader connection between brain calcifications and tumors, encouraging a reevaluation of therapeutic approaches for PFBC.

New Evidence Suggests a Much Complex Classification for the Genetic Pattern of Inheritance in Primary Brain Calcification.

Primary familial brain calcification (PFBC), often called Fahr's disease, is a condition in which calcium phosphate accumulates in the brain, mainly in the basal ganglia, thalamus, and cerebellum, and without the association of any metabolic or infectious cause. Patients present a variety of neurological and psychiatric disorders, usually during adulthood. The disease is caused by autosomal dominant pathogenic variants in genes such as SLC20A2, PDGFRB, PDGFB, and XPR1. MYORG and JAM2 are the other genes linked to homozygous patterns of inheritance. Here, we briefly discuss the recent cases reported by Ceylan et al. (2022) and Al-Kasbi et al. (2022), which challenge the current association with two previous genes and a clear pattern of inheritance. Ceylan et al. report a new biallelic variant related to a pathogenic variant in the SLC20A2 gene, which is typically associated with a heterozygous mutation pattern. The affected siblings displayed a severe and early onset of the disease, revealing a phenotype similar to that seen in CMV infections, often named as pseudo-TORCH. Furthermore, a study of genes related to intellectual disability conducted by Al-Kasbi et al. demonstrated that the biallelic manifestation of the XPR1 gene was associated with early symptoms, leading to the belief that the homozygous pattern of genes responsible for causing PFBC with an autosomal dominant pattern may also be linked to early-onset manifestations of PFBC. Further studies might explore the variety of clinical presentations linked to PFBC genes, especially if we pay attention to complex patterns of inheritance, reinforcing the need for a more detailed bioinformatic analysis.

Report of a young patient with brain calcifications with a novel homozygous MYORG variant.

Primary familial brain calcifications (PFBC) is characterized by bilateral and symmetrical deposition of inorganic phosphate, mainly in the basal ganglia, thalamus, cerebellum, and dentate nucleus. The symptoms resemble other neuropsychiatric conditions, such as Parkinsonism, dementia, migraine, and mood disorders. Pathogenic variants in six genes have been associated with this disorder, four linked to the autosomal dominant mode (SLC20A2, PDGFRB, PDGFB, and XPR1) and two linked to the recessive fashion (MYORG and JAM2). Herein, we report a young 24-year-old patient with a medical history of bilateral and symmetrical brain calcification and neuropsychiatric symptoms that include movement disturbances (chorea and dystonia), chronic migraine, unexplained tinnitus, and mood swings. After whole-exome sequencing, she was diagnosed with a novel homozygous MYORG variant (c.912_914del; p.(Ser305del)). In silico analysis showed that the variant is located on the extracellular domain of MYORG protein and is predicted to be disease-causing (likely pathogenic), implying that protein features might be affected. This study describes the second Brazilian case of MYORG PFBC-causative gene. Furthermore, it highlights the early age and onset of symptoms of the proband, especially in regard to movement disorders.

Non-lethal Raine Syndrome Report Lacking Characteristic Clinical Features.

Raine syndrome is a rare, often lethal autosomal recessive condition marked by congenital malformations that range in severity. Considering that several case reports of this syndrome describe cases of stillbirth or perinatal death, information about the clinical presentation and development of this condition in mild, non-lethal cases is lacking. With that in mind, in this case report, we describe the clinical, oro-dental, and skeletal findings of a 14-year-old Brazilian patient diagnosed with a mild form of non-lethal Raine syndrome. This patient has very mild facial dysmorphia, not displaying hypoplastic nose, micrognathia, low set ears or depressed nasal bridge, which is uncommon even in other mild, non-lethal cases of RS. Furthermore, this patient has bilateral brain calcifications and a series of oro-dental abnormalities, such as amelogenesis imperfecta and recurrent periodontal abcesses. Sanger sequencing of genomic DNA identified a homozygous missense variant c.1487C > T at exon 9 of FAM20C (NM_020223.4) in the patient. The patient's mother carries the same variant but is heterozygous. This variant predicts a proline to leucine substitution in position 496 (p.P496L, NP_064608.2) previously reported, which allows for the phenotypic comparison between these cases. This way, this case report calls attention to how differently RS can appear, highlighting the importance of new non-lethal Raine syndrome case reports to help further determine the phenotypic spectrum of this condition.

MiR-9-5p Regulates Genes Linked to Cerebral Calcification in the Osteogenic Differentiation Model and Induces Generalized Alteration in the Ion Channels.

MicroRNA-9 (miR-9) modulates gene expression and demonstrates high structural conservation and wide expression in the central nervous system. Bioinformatics analysis predicts almost 100 ion channels, membrane transporters and receptors, including genes linked to primary familial brain calcification (PFBC), as possible miR-9-5p targets. PFBC is a neurodegenerative disorder, characterized by bilateral and symmetrical calcifications in the brain, associated with motor and behavioral disturbances. In this work, we seek to study the influence of miR-9-5p in regulating genes involved in PFBC, in an osteogenic differentiation model with SaOs-2 cells. During the induced calcification process, solute carrier family 20 member 2 (SLC20A2) and platelet-derived growth factor receptor beta (PDGFRB) were downregulated, while platelet-derived growth factor beta (PDGFB) showed no significant changes. Significantly decreased levels of SLC20A2 and PDGFRB were caused by the presence of miR-9-5p, while PDGFB showed no regulation. We confirmed the findings using an miR-9-5p inhibitor and also probed the cells in electrophysiological analysis to assess whether such microRNA might affect a broader range of ion channels, membrane transporters and receptors. Our electrophysiological data show that an increase of the miR-9-5p in SaOs-2 cells decreased the density and amplitude of the output ionic currents, indicating that it may influence the activity, and perhaps the expression, of some ionic channels. Additional investigations should determine whether such an effect is specific to miR-9-5p, and whether it could be used, together with the miR-9-5p inhibitor, as a therapeutic or diagnostic tool.

The Master of Puppets: Pleiotropy of PDGFRB and its Relationship to Multiple Diseases.

The platelet-derived growth factor receptor beta (PDGFRB) gene is involved in proliferative and developmental processes in mammals. Variations in this gene lead to several different syndromic conditions, such as infantile myofibromatosis I, sporadic port-wine stain, primary familial brain calcification, and the Penttinen and overgrowth syndromes. Our objective was to investigate PDGFRB's genetic relationship to clinical conditions and evaluate the protein interactions using GeneNetwork, GeneMANIA, and STRING network databases. We have evidenced the gene's pleiotropy through its many connections and its link to syndromic conditions. Therefore, PDGFRB may be an important therapeutic target for treating such conditions.

Digenic Variants as Possible Clinical Modifier of Primary Familial Brain Calcification Patients.

Primary familial brain calcification (PFBC), widely known as Fahr's disease, is a rare disorder caused by pathogenic variants in SLC20A2, PDGFB, PDGFRB, XPR1, or MYORG genes. It is characterized by ectopic brain calcification, mostly affecting basal ganglia, thalamus, and cerebellum. PFBC patients can present a wide spectrum of symptoms including cognitive, neuropsychiatric, and motor alterations. However, it is well established that PFBC individuals also present high clinical heterogeneity, though the genetic cause of this phenotypic is not understood. Recently, Wang et al. (Front Cell Neurosci. https://doi.org/10.3389/fncel.2019.00250, 2019) reported on the role of MEA6 gene in cerebellar development and motor performance, also citing that MEA6 might be linked to PFBC. A MEA6 variant was described in 2007 as a PFBC candidate gene in an American family. However, this family was later linked to the SLC20A2 gene discarding the MEA6 as a PFBC-gene and also some members were confirmed as phenocopy. Additionally, five independent studies have been shown that variants in a second gene, not related to PFBC, were identified in PFBC patients, promoting a complex and heterogeneous phenotype. Thus, further investigation is required to explain whether and how MEA6 contributes to the clinical presentation in this American family. Finally, this letter highlights the possible digenic influence on clinical heterogeneity of PFBC patients, and such a possibility might advance our understanding of PFBC phenotypes.

Lack of Major Ophthalmic Findings in Patients with Primary Familial Brain Calcification Linked to SLC20A2 and PDGFB.

Primary familial brain calcification (PFBC) is a rare neurodegenerative disorder characterized by symmetrical and bilateral brain calcification. It is typically inherited as an autosomal dominant disorder, and de novo variants have also been described. Interestingly, just recent studies have reported the first autosomal recessive PFBC-causative gene. PFBC patients exhibit high clinical heterogeneity including Parkinsonism, dystonia, ataxia, depression, and migraine. Mice studies, an important research tool, have been a breakthrough in increasing the understanding of PFBC's main signs and symptoms, and many findings reported in these mice have been subsequently reported in patients. One phenotype that has been observed in PFBC mice models but not in PFBC patients, however, is the development of ophthalmic abnormalities. This way, this report focused on performing an ophthalmic assessment in six Brazilian patients genetically diagnosed with PFBC. The assessments showed that none of the PFBC individuals included presented any of the ophthalmic abnormalities reported in mice models, such as cataracts, ocular calcification, abnormal iris and lens morphology, and retinal deterioration. Additionally, of the six PFBC patients described, two SLC20A2 mutation carriers showed physiological excavation of the optic nerve head and partial vitreous detachment, while just one individual presented bilateral narrowing of retinal arterioles. In summary, no evidence of similar ophthalmological abnormalities found in mice were found in our patients; nonetheless, further studies in larger sample size are warranted to corroborate with our findings. To our knowledge, this study is the first to focus on investigating, in PFBC patients, the ophthalmological phenotypes described in the PFBC mice models.

Publisher Correction: Discordant congenital Zika syndrome twins show differential in vitro viral susceptibility of neural progenitor cells.

The original PDF version of this Article contained errors in the spelling of Luiz Carlos Caires-Júnior, Uirá Souto Melo, Bruno Henrique Silva Araujo, Alessandra Soares-Schanoski, Murilo Sena Amaral, Kayque Alves Telles-Silva, Vanessa van der Linden, Helio van der Linden, João Ricardo Mendes de Oliveira, Nivia Maria Rodrigues Arrais, Joanna Goes Castro Meira, Ana Jovina Barreto Bispo, Esper Abrão Cavalheiro, and Robert Andreata-Santos, which were incorrectly given as Luiz Carlos de Caires Jr., UiráSouto Melo, Bruno Silva Henrique Araujo, Alessandra Soares Schanoski, MuriloSena Amaral, Kayque Telles Alves Silva, Vanessa Van der Linden, Helio Van der Linden, João Mendes Ricardo de Oliveira, Nivia Rodrigues Maria Arrais, Joanna Castro Goes Meira, Ana JovinaBarreto Bispo, EsperAbrão Cavalheiro, and Robert Andreata Santos. Furthermore, in both the PDF and HTML versions of the Article, the top panel of Fig. 3e was incorrectly labeled '10608-1' and should have been '10608-4', and financial support from CAPES and DECIT-MS was inadvertently omitted from the Acknowledgements section. These errors have now been corrected in both the PDF and HTML versions of the Article.

Discordant congenital Zika syndrome twins show differential in vitro viral susceptibility of neural progenitor cells.

Congenital Zika syndrome (CZS) causes early brain development impairment by affecting neural progenitor cells (NPCs). Here, we analyze NPCs from three pairs of dizygotic twins discordant for CZS. We compare by RNA-Seq the NPCs derived from CZS-affected and CZS-unaffected twins. Prior to Zika virus (ZIKV) infection the NPCs from CZS babies show a significantly different gene expression signature of mTOR and Wnt pathway regulators, key to a neurodevelopmental program. Following ZIKV in vitro infection, cells from affected individuals have significantly higher ZIKV replication and reduced cell growth. Whole-exome analysis in 18 affected CZS babies as compared to 5 unaffected twins and 609 controls excludes a monogenic model to explain resistance or increased susceptibility to CZS development. Overall, our results indicate that CZS is not a stochastic event and depends on NPC intrinsic susceptibility, possibly related to oligogenic and/or epigenetic mechanisms.

Calcitriol Reverses the Down-Regulation Pattern of Tuberous Sclerosis Complex Genes in an In Vitro Calcification Model.

Tuberous sclerosis complex (TSC) is a neurocutaneous syndrome with autosomal dominant inheritance, and most of the cases are related to loss of function of the TSC1 and TSC2 genes. TSC may occur with a wide range of clinical findings and skin, kidney, brain, and heart are the most commonly affected organs. Brain calcifications in TSC are also described and reported as diffuse and without pattern of symmetry or bilaterality. Recently, a new discovery opened the possibility of using vitamin D (VitD) for treating cerebral calcifications. Calcitriol, the active form of VitD, was able to reduce the calcification in an in vitro model, increasing expression of a gene related to primary familial brain calcification. We show that in the same experimental model, calcitriol was also able to restore and even increase expression of genes related to TSC. This article discusses the use of calcitriol supplementation in patients with TSC, which can be a very interesting strategy due to its low cost and because it is already used in various therapies.

PDGF Family Expression in Glioblastoma Multiforme: Data Compilation from Ivy Glioblastoma Atlas Project Database.

Glioblastoma Multiforme (GBM) is the most frequent and lethal primary brain cancer. Due to its therapeutic resistance and aggressiveness, its clinical management is challenging. Platelet-derived Growth Factor (PDGF) genes have been enrolled as drivers of this tumour progression as well as potential therapeutic targets. As detailed understanding of the expression pattern of PDGF system in the context of GBM intra- and intertumoral heterogeneity is lacking in the literature, this study aims at characterising PDGF expression in different histologically-defined GBM regions as well as investigating correlation of these genes expression with parameters related to poor prognosis. Z-score normalised expression values of PDGF subunits from multiple slices of 36 GBMs, alongside with clinical and genomic data on those GBMs patients, were compiled from Ivy Glioblastoma Atlas Project - Allen Institute for Brain Science data sets. PDGF subunits show differential expression over distinct regions of GBM and PDGF family is heterogeneously expressed among different brain lobes affected by GBM. Further, PDGF family expression correlates with bad prognosis factors: age at GBM diagnosis, Phosphatase and Tensin Homolog deletion and Isocitrate Dehydrogenase 1 mutation. These findings may aid on clinical management of GBM and development of targeted curative therapies against this devastating tumour.

Are Brazilian cervids at risk of prion diseases?

Prion diseases are neurodegenerative fatal disorders that affect human and non-human mammals. Chronic Wasting Disease (CWD) is a prion disease of cervids regarded as a public health problem in North America, and polymorphisms at specific codons in the PRNP gene are associated with this disease. To assess the potential CWD susceptibility of South American free-ranging deer, the presence of these polymorphisms was examined in Mazama gouazoubira, Ozotoceros bezoarticus and Blastocerus dichotomus. Despite the lack of CWD reports in Brazil, the examined codons (95, 96, 116, 132, 225, and 226) of the PRNP gene showed potential CWD susceptibility in Brazilian deer. Low abundancy of deer in Brazil possibly difficult both CWD proliferation and detection, however, CWD surveillance may not be neglected.