A replication-linked mutational gradient drives somatic mutation accumulation and influences germline polymorphisms and genome composition in mitochondrial DNA.

Mutations in mitochondrial DNA (mtDNA) cause maternally inherited diseases, while somatic mutations are linked to common diseases of aging. Although mtDNA mutations impact health, the processes that give rise to them are under considerable debate. To investigate the mechanism by which de novo mutations arise, we analyzed the distribution of naturally occurring somatic mutations across the mouse and human mtDNA obtained by Duplex Sequencing. We observe distinct mutational gradients in G→A and T→C transitions delimited by the light-strand origin and the mitochondrial Control Region (mCR). The gradient increases unequally across the mtDNA with age and is lost in the absence of DNA polymerase γ proofreading activity. In addition, high-resolution analysis of the mCR shows that important regulatory elements exhibit considerable variability in mutation frequency, consistent with them being mutational 'hot-spots' or 'cold-spots'. Collectively, these patterns support genome replication via a deamination prone asymmetric strand-displacement mechanism as the fundamental driver of mutagenesis in mammalian DNA. Moreover, the distribution of mtDNA single nucleotide polymorphisms in humans and the distribution of bases in the mtDNA across vertebrate species mirror this gradient, indicating that replication-linked mutations are likely the primary source of inherited polymorphisms that, over evolutionary timescales, influences genome composition during speciation.

[Ibero-latinamerican clinical practical guidelines on pediatric caustic esophagitis: Physiopathology and clinical-endoscopic diagnosis (1st Part)]. / Guía de práctica clínica Ibero-Latinoamericana sobre la esofagitis cáustica en Pediatría: Fisiopatología y diagnóstico clínico-endoscópico (1a Parte).

Caustic ingestion represents a serious social-medical problem due to the devastating and irreversible consequences it can produce in the upper digestive tract. In Ibero-America, there are no published reliable data on the incidence or prevalence of caustic-induced injuries, and most of the available information on clinical presentation, diagnosis, treatment, and prognosis is based on retrospective clinical series and, indeed, its clinical management is often based primarily on expert opinion. Re cently as an initiative of the Latin American Society for Pediatric Gastroenterology, Hepatology and Nutrition (LASPGHAN) and with the cooperation of the Spanish Society for Pediatric Gastroente rology, Hepatology and Nutrition (SEGHNP), we have designed a Clinical Practice Guideline that include a series of statements and recommendations aimed at optimizing patient medical care which is based on the systematic review of evidence. Two (2) successive papers focused on the evaluation of physiopathological and clinical-endoscopic diagnostic features of caustic esophagitis in children (1st. Paper) and, on the other hand, the most relevant therapeutic considerations (2nd. Paper). We expect this guideline to become a useful tool for the physician in the difficult decision-making process when assessing patients after caustic ingestion.

[Ibero-Latinamerican Clinical Practical Guidelines on pediatric caustic esophagitis: Therapeutical aspects (Part 2)]. / Guía de práctica clínica Ibero-Latinoamericana sobre la esofagitis cáustica en Pediatría: Aspectos terapéuticos (2a. Parte).

Caustic ingestion represents a serious social-medical problem due to the devastating and irreversible consequences it can produce in the upper digestive tract. In Ibero-America, there are no published reliable data on the incidence or prevalence of caustic-induced injuries, and most of the available information on clinical presentation, diagnosis, treatment, and prognosis is based on retrospective clinical series and, indeed, its clinical management is often based primarily on expert opinion. Re cently as an initiative of the Latin American Society for Pediatric Gastroenterology, Hepatology and Nutrition (LASPGHAN) and with the cooperation of the Spanish Society for Pediatric Gastroente rology, Hepatology and Nutrition (SEGHNP), we have designed a Clinical Practice Guideline that include a series of statements and recommendations aimed at optimizing patient medical care which is based on the systematic review of evidence. Two (2) separate papers focused on the evaluation of physiopathological and clinical-endoscopic diagnostic features of caustic esophagitis in children (1st. Paper) and, on the other hand, the most relevant therapeutic considerations (2nd. Paper). We expect this guideline to become a useful tool for the physician in the difficult decision-making process when assessing patients after caustic ingestion.

A Point Mutation in PDGFRB Causes Autosomal-Dominant Penttinen Syndrome.

Penttinen syndrome is a distinctive disorder characterized by a prematurely aged appearance with lipoatrophy, epidermal and dermal atrophy along with hypertrophic lesions that resemble scars, thin hair, proptosis, underdeveloped cheekbones, and marked acro-osteolysis. All individuals have been simplex cases. Exome sequencing of an affected individual identified a de novo c.1994T>C p.Val665Ala variant in PDGFRB, which encodes the platelet-derived growth factor receptor ß. Three additional unrelated individuals with this condition were shown to have the identical variant in PDGFRB. Distinct mutations in PDGFRB have been shown to cause infantile myofibromatosis, idiopathic basal ganglia calcification, and an overgrowth disorder with dysmorphic facies and psychosis, none of which overlaps with the clinical findings in Penttinen syndrome. We evaluated the functional consequence of this causative variant on the PDGFRB signaling pathway by transfecting mutant and wild-type cDNA into HeLa cells, and transfection showed ligand-independent constitutive signaling through STAT3 and PLCγ. Penttinen syndrome is a clinically distinct genetic condition caused by a PDGFRB gain-of-function mutation that is associated with a specific and unusual perturbation of receptor function.

Human gut microbiome viewed across age and geography.

Gut microbial communities represent one source of human genetic and metabolic diversity. To examine how gut microbiomes differ among human populations, here we characterize bacterial species in fecal samples from 531 individuals, plus the gene content of 110 of them. The cohort encompassed healthy children and adults from the Amazonas of Venezuela, rural Malawi and US metropolitan areas and included mono- and dizygotic twins. Shared features of the functional maturation of the gut microbiome were identified during the first three years of life in all three populations, including age-associated changes in the genes involved in vitamin biosynthesis and metabolism. Pronounced differences in bacterial assemblages and functional gene repertoires were noted between US residents and those in the other two countries. These distinctive features are evident in early infancy as well as adulthood. Our findings underscore the need to consider the microbiome when evaluating human development, nutritional needs, physiological variations and the impact of westernization.

Distribution and characteristics of transactive response DNA binding protein 43 kDa pathology in progressive supranuclear palsy.

BACKGROUND: This study aimed to determine the frequency of transactive response DNA binding protein 43 kDa pathology in PSP, the clinical features of patients with this pathology, and genetic risk factors for it. METHODS: Hippocampal sections were screened with immunohistochemistry for transactive response DNA binding protein 43 kDa in 945 PSP cases. A subset of 261 cases that were negative in hippocampus was screened in the amygdala. The density and disruption of this pathology, as well as regional tau burden, and clinical and genetic characteristics were analyzed. RESULTS: We observed transactive response DNA binding protein 43 kDa pathology in 47 cases in the hippocampus and an additional 9 cases that only affected the amygdala. Hippocampal sclerosis was the strongest risk factor, followed by Alzheimer's disease pathology, argyrophilic grain disease, and older age at death. Five stages of transactive response DNA binding protein 43 kDa pathology were identified in PSP: Stage A had pathology only in the amygdala (16%); stage I had pathology confined to the hippocampus and entorhinal cortex (9%); stage II included both regions of stage A and I (38%); stage III spread further to medial occipitotemporal gyrus (20%); and stage IV had pathology in the dorsolateral frontal lobe (18%). Anatomical areas vulnerable to PSP pathology had varying degrees of this pathology in stage II and later. PSP with transactive response DNA binding protein 43 kDa pathology were older at disease onset and had lower median MMSE scores; however, the latter was driven by concurrent pathologies. CONCLUSIONS: Distribution and clinical characteristics of transactive response DNA binding protein 43 kDa pathology in PSP were influenced by concurrent pathologies. This is the first study to observe that PSP-vulnerable regions are also susceptible to this non-tau pathology. © 2016 International Parkinson and Movement Disorder Society.

Cognitive impairment in progressive supranuclear palsy is associated with tau burden.

BACKGROUND: Cognitive impairment is one of the core features of progressive supranuclear palsy. This study aimed to clarify the profile of cognitive impairment and its underlying pathology in progressive supranuclear palsy. METHODS: We retrospectively reviewed medical records to evaluate the pattern and severity of cognitive impairment in 121 autopsy-confirmed progressive supranuclear palsy patients. A subset of 37 patients underwent neuropsychological evaluation as part of their clinical workup. The burden of progressive supranuclear palsy-related tau pathology (neurofibrillary tangles/pretangles, coiled bodies, tufted astrocytes, and threads) was semiquantitatively scored in 20 vulnerable brain regions. Concurrent pathologies potentially associated with cognitive impairment, such as Alzheimer's-type pathology, were also assessed. To evaluate possible genetic risk factors for cognitive impairment, genetic analysis for APOE and MAPT was performed. RESULTS: Ninety patients (74%) had documented cognitive impairment based on neurologic evaluation. In a subgroup with neuropsychological testing (n = 37), executive functioning was the most severely impaired cognitive domain. A global cognitive impairment index (Spearman's rho, -0.49; P = 0.005) and executive functioning were negatively correlated with total tau burden (Spearman's rho, -0.51; P = 0.003), but not correlated with the Alzheimer's-type pathology. APOE ɛ4 carriers had more severe amyloid pathology, but total tau burden and a global cognitive impairment index did not differ from APOE ɛ4 noncarriers. CONCLUSION: Cognitive impairment in progressive supranuclear palsy, most notably executive dysfunction, is associated with severity of progressive supranuclear palsy-related tau pathology. © 2017 International Parkinson and Movement Disorder Society.

Study of LRRK2 variation in tauopathy: Progressive supranuclear palsy and corticobasal degeneration.

BACKGROUND: Mutations in the leucine-rich repeat kinase 2 gene (LRRK2) are the most common genetic cause of Parkinson's disease (PD). Unexpectedly, tau pathology has been reported in a subset of LRRK2 mutation carriers. METHODS: To estimate the frequency of pathogenic LRRK2 mutations and to evaluate the association of common LRRK2 variants with risk of primary tauopathies, we studied 1039 progressive supranuclear palsy (PSP) and 145 corticobasal degeneration patients from the Mayo Clinic Florida brain bank and 1790 controls ascertained at Mayo Clinic. Sanger sequencing of LRRK2 exons 30, 31, 35, and 41 was performed in all patients, and genotyping of all 17 known exonic variants with minor allele frequency >0.5% was performed in patients and controls. RESULTS: LRRK2 mutational screening identified 2 known pathogenic mutations (p.G2019S and p.R1441C), each in 1 PSP patient, the novel p.A1413T mutation in a PSP patient and the rare p.R1707K mutation in a corticobasal degeneration patient. Both p.A1413T and p.R1707K mutations were predicted damaging by at least 2 of 3 prediction programs and affect evolutionary conserved sites of LRRK2. Association analysis using common LRRK2 variants only showed nominal association of the p.L153L variant with PSP. CONCLUSIONS: Our study confirms the presence of pathogenic and potentially pathogenic LRRK2 mutations in pathologically confirmed primary tauopathies, albeit with low frequency. In contrast to PD, common LRRK2 variants do not appear to play a major role in determining PSP and corticobasal degeneration risk. © 2016 International Parkinson and Movement Disorder Society.

Oxidative stress is not a major contributor to somatic mitochondrial DNA mutations.

The accumulation of somatic mitochondrial DNA (mtDNA) mutations is implicated in aging and common diseases of the elderly, including cancer and neurodegenerative disease. However, the mechanisms that influence the frequency of somatic mtDNA mutations are poorly understood. To develop a simple invertebrate model system to address this matter, we used the Random Mutation Capture (RMC) assay to characterize the age-dependent frequency and distribution of mtDNA mutations in the fruit fly Drosophila melanogaster. Because oxidative stress is a major suspect in the age-dependent accumulation of somatic mtDNA mutations, we also used the RMC assay to explore the influence of oxidative stress on the somatic mtDNA mutation frequency. We found that many of the features associated with mtDNA mutations in vertebrates are conserved in Drosophila, including a comparable somatic mtDNA mutation frequency (∼10(-5)), an increased frequency of mtDNA mutations with age, and a prevalence of transition mutations. Only a small fraction of the mtDNA mutations detected in young or old animals were G∶C to T∶A transversions, a signature of oxidative damage, and loss-of-function mutations in the mitochondrial superoxide dismutase, Sod2, had no detectable influence on the somatic mtDNA mutation frequency. Moreover, a loss-of-function mutation in Ogg1, which encodes a DNA repair enzyme that removes oxidatively damaged deoxyguanosine residues (8-hydroxy-2'-deoxyguanosine), did not significantly influence the somatic mtDNA mutation frequency of Sod2 mutants. Together, these findings indicate that oxidative stress is not a major cause of somatic mtDNA mutations. Our data instead suggests that somatic mtDNA mutations arise primarily from errors that occur during mtDNA replication. Further studies using Drosophila should aid in the identification of factors that influence the frequency of somatic mtDNA mutations.

Genetics of FTLD: overview and what else we can expect from genetic studies.

Frontotemporal lobar degeneration (FTLD) comprises a highly heterogeneous group of disorders clinically associated with behavioral and personality changes, language impairment, and deficits in executive functioning, and pathologically associated with degeneration of frontal and temporal lobes. Some patients present with motor symptoms including amyotrophic lateral sclerosis. Genetic research over the past two decades in FTLD families led to the identification of three common FTLD genes (microtubule-associated protein tau, progranulin, and chromosome 9 open reading frame 72) and a small number of rare FTLD genes, explaining the disease in almost all autosomal dominant FTLD families but only a minority of apparently sporadic patients or patients in whom the family history is less clear. Identification of additional FTLD (risk) genes is therefore highly anticipated, especially with the emerging use of next-generation sequencing. Common variants in the transmembrane protein 106 B were identified as a genetic risk factor of FTLD and disease modifier in patients with known mutations. This review summarizes for each FTLD gene what we know about the type and frequency of mutations, their associated clinical and pathological features, and potential disease mechanisms. We also provide an overview of emerging disease pathways encompassing multiple FTLD genes. We further discuss how FTLD specific issues, such as disease heterogeneity, the presence of an unclear family history and the possible role of an oligogenic basis of FTLD, can pose challenges for future FTLD gene identification and risk assessment of specific variants. Finally, we highlight emerging clinical, genetic, and translational research opportunities that lie ahead. Genetic research led to the identification of three common FTLD genes with rare variants (MAPT, GRN, and C9orf72) and a small number of rare genes. Efforts are now ongoing, which aimed at the identification of rare variants with high risk and/or low frequency variants with intermediate effect. Common risk variants have also been identified, such as TMEM106B. This review discusses the current knowledge on FTLD genes and the emerging disease pathways encompassing multiple FTLD genes.

Evidence of Helicobacter spp. in freshwaters from Roraima Tepui, Guayana Shield, South America.

Helicobacter presence and viability in waters is not well characterized. The identification of natural reservoirs and infection sources may provide novel insights into its waterborne transmission. The goal of this study was to investigated the occurrence of Helicobacter spp. in natural freshwaters from Roraima Tepui, a little studied and unique ecosystem of the Guayana Shield. Freshwaters collected from two localities at Roraima Tepui were cultured in HP selective broth and agar for Helicobacter pylori and analysed by fluorescent in situ hybridization (FISH), specific PCR assays, 16S rRNA gene sequencing and phylogenetic analysis. The presence of other bacteria in freshwater enrichments was determined using clone library sequencing of the 16S rRNA gene and phylogenetic inferences. Helicobacter spp. were detected by semi-nested PCR and FISH in freshwater enrichments from both sites. Coccoid viable but nonculturable (VBNC) cells were evidenced using 16S rRNA gene Helicobacter species and H. pylori-specific probes. Partial 16S rRNA gene sequences of two HP enrichments showed high similarity to H. pylori and Helicobacter nemestrinae (99-100 %). Other bacteria such as Serratia, Aquitalea, Chromobacterium, Mycobacterium, Acinetobacter, Curvibacter and Dysgonomonas were also detected using complete 16S rRNA gene sequences, with Serratia, Aquitalea and Chromobacterium the most common genera (40.9, 18.2 and 15.2 %, respectively). This is the first time that Helicobacter spp. have been reported in freshwaters of a tepui ecosystem. Our results contribute to the current knowledge of these bacteria in the aquatic environment and expand their known/potential sites outside the human host.

Removal of Arsenic from water using synthetic Fe7S8 nanoparticles.

In the present study, pyrrhotite was used to remove arsenite and arsenate from aqueous solutions. The Fe7S8 was synthesized using a solvothermal synthetic method and it was characterized using XRD and SEM micrographs. Furthermore, the particle size for the nanomaterial Fe7S8 was determined to be 29.86 ± 0.87 nm using Scherer's equation. During the pH profile studies, the optimum pH for the binding of As (III) and As (V) was determined to be pH 4. Batch isotherm studies were performed to determine the binding capacity of As(III) and As(V), which was determined to be 14.3 mg/g and 31.3 mg/g respectively for 25°C. The thermodynamic studies indicated that the ΔG for the sorption of As(III) and As(V) ranged from -115.5 to -0.96 kJ/mol, indicating a spontaneous process was occurring. The enthalpy indicated that an exothermic reaction was occurring during the adsorption in which the ΔH was -53.69 kJ/mol and -32.51 kJ/mol for As(III) and As(V) respectively. In addition, ΔS values for the reaction had negative values of -160.46 J/K and -99.77 J/K for the adsorption of As(III) and As(V) respectively which indicated that the reaction was spontaneous at low temperatures. Furthermore, the sorption for As(III) and As(V) was determined to follow the second order kinetics adsorption model.

Genetic Disorders with Tau Pathology: A Review of the Literature and Report of Two Patients with Tauopathy and Positive Family Histories.

BACKGROUND: Tauopathies are a group of neurodegenerative disorders characterized by the pathological accumulation of hyperphosphorylated and insoluble tau protein within neurons and glia. Although most cases are sporadic, hereditary tauopathies have also been reported. SUMMARY: In this article, we review genetic disorders in which tau pathology has been reported and present two novel families with primary tauopathies. Mutations in the microtubule-associated protein tau gene (MAPT) cause a small subset of primary tauopathies. Mutations in 21 other genes and an 18q deletion syndrome have also been reported to be associated with tau pathology reminiscent of Alzheimer's disease, corticobasal degeneration, progressive supranuclear palsy, argyrophilic grain disease or Pick's disease. In 8 of the 21 genes, tau pathology was only seen in cases with some 'specific' mutations. In the remaining genes, tau pathology, often in the form of Alzheimer-type neurofibrillary lesions, was a common finding but was 'not mutation specific'. The probands of the two families were diagnosed with progressive supranuclear palsy based on clinicopathological evaluation. Their family histories were relevant for parkinsonism in 3 siblings of family 1 and 1 brother and the father from family 2, but these were not autopsy-confirmed. DNA from the brains of the probands from these families was screened for MAPT and leucine-rich repeat kinase 2 gene mutations, but no mutations were identified. KEY MESSAGES: MAPT mutations are a cause of familial tauopathies, but other genes have also been associated with tau pathology. Novel genes still await discovery.

A novel tau mutation, p.K317N, causes globular glial tauopathy.

Globular glial tauopathies (GGTs) are 4-repeat tauopathies neuropathologically characterized by tau-positive, globular glial inclusions, including both globular oligodendroglial inclusions and globular astrocytic inclusions. No mutations have been found in 25 of the 30 GGT cases reported in the literature who have been screened for mutations in microtubule associated protein tau (MAPT). In this report, six patients with GGT (four with subtype III and two with subtype I) were screened for MAPT mutations. They included 4 men and 2 women with a mean age at death of 73 years (55-83 years) and mean age at symptomatic onset of 66 years (50-77 years). Disease duration ranged from 5 to 14 years. All were homozygous for the MAPT H1 haplotype. Three patients had a positive family history of dementia, and a novel MAPT mutation (c.951G>C, p.K317N) was identified in one of them, a patient with subtype III. Recombinant tau protein bearing the lysine-to-asparagine substitution at amino acid residue 317 was used to assess functional significance of the variant on microtubule assembly and tau filament formation. Recombinant p.K317N tau had reduced ability to promote tubulin polymerization. Recombinant 3R and 4R tau bearing the p.K317N mutation showed decreased 3R tau and increased 4R tau filament assembly. These results strongly suggest that the p.K317N variant is pathogenic. Sequencing of MAPT should be considered in patients with GGT and a family history of dementia or movement disorder. Since several individuals in our series had a positive family history but no MAPT mutation, genetic factors other than MAPT may play a role in disease pathogenesis.

Environmental scanning electron microscopy analysis of Proteus mirabilis biofilms grown on chitin and stainless steel.

Proteus mirabilis is a human pathogen able to form biofilms on the surface of urinary catheters. Little is known about P. mirabilis biofilms on natural or industrial surfaces and the potential consequences for these settings. The main aim of this work was to assess and compare the adhesion and biofilm formation of P. mirabilis strains from different origins on chitin and stainless steel surfaces within 4 to 96 h. Using environmental scanning electron microscopy, the biofilms of a clinical strain grown on chitin at 4 h showed greater adhesion, aggregation, thickness, and extracellular matrix production than those grown on stainless steel, whereas biofilms of an environmental strain had less aggregation on both surfaces. Biofilms of both P. mirabilis strains developed different structures on chitin, such as pillars, mushrooms, channels, and crystalline-like precipitates between 24 and 96 h, in contrast with flat-layer biofilms produced on stainless steel. Significant differences (p < 0.05) were found in the frequency of pillars and channels. Images of transmission electron microscopy demonstrated abundant fimbriae in 100 % of cells from both strains, which could be related to surface adherence and biofilm formation. This represents the first study of P. mirabilis showing adhesion, biofilm formation, and development of different structures on surfaces found outside the human host.

[Tufting enteropathy: a case report, histopathological methodology, and differential diagnoses]. / Enteropatía en penacho: reporte de un caso, metodología de estudio de la biopsia y diagnósticos diferenciales.

Tufting enteropathy (TE), previously known as intestinal epithelial dysplasia, is a rare congenital enteropathy characterized by refractory diarrhea in the neonatal period. It presents clinical and histological heterogeneity and may be associated with birth defects and punctuate keratitis. The causative gene(s) have not yet been identfied making prenatal diagnosis unavailable. Although there are milder phenotypes most require parenteral nutrition for prolonged periods with the risk of complications. TE becomes an indication for intestinal transplantation. We report the case of a 4-month-old male, born full term with a normal weight. The parents consulted because of severe malnutrition and chronic watery diarrhea. Duodenal and rectal biopsy was negative. Because of poor tolerance gastroclysis was changed to parenteral nutrition. The infant had several catheter-related infections and died at 13 months from catheter-associated complications. Histopathological autopsy was performed. The material was fixed in paraffin and studied with routine techniques. PAS and immunohistochemistry for CD10 were performed. We observed villous atrophy with intestinal epithelial dysplasia and disorganization on the surface of epithelial cells resembling tufts in jejunal and ileal tissue. The objective of this study was to present a rare case of neonatal enteropathy, especially TE, describe the methodology used to study the biopsy, and discuss the differential diagnoses. TE is a rare neonatal enteropathy that is difficult to diagnose and manage. Children in whom TE is suspected should be referred to specialized pediatric centers, with the option of intestinal transplantation.

Genetic screening and functional characterization of PDGFRB mutations associated with basal ganglia calcification of unknown etiology.

Three causal genes for idiopathic basal ganglia calcification (IBGC) have been identified. Most recently, mutations in PDGFRB, encoding a member of the platelet-derived growth factor receptor family type ß, and PDGFB, encoding PDGF-B, the specific ligand of PDGFRß, were found implicating the PDGF-B/PDGFRß pathway in abnormal brain calcification. In this study, we aimed to identify and study mutations in PDGFRB and PDGFB in a series of 26 patients from the Mayo Clinic Florida Brain Bank with moderate to severe basal ganglia calcification (BCG) of unknown etiology. No mutations in PDGFB were found. However, we identified one mutation in PDGFRB, p.R695C located in the tyrosine kinase domain, in one BGC patient. We further studied the function of p.R695C mutant PDGFRß and two previously reported mutants, p.L658P and p.R987W PDGFRß in cell culture. We show that, in response to PDGF-BB stimulation, the p.L658P mutation completely suppresses PDGFRß autophosphorylation, whereas the p.R695C mutation results in partial loss of autophosphorylation. For the p.R987W mutation, our data suggest a different mechanism involving reduced protein levels. These genetic and functional studies provide the first insight into the pathogenic mechanisms associated with PDGFRB mutations and provide further support for a pathogenic role of PDGFRB mutations in BGC.

SLC20A2 and THAP1 deletion in familial basal ganglia calcification with dystonia.

Idiopathic basal ganglia calcification (IBGC) is characterized by bilateral calcification of the basal ganglia associated with a spectrum of neuropsychiatric and motor syndromes. In this study, we set out to determine the frequency of the recently identified IBGC gene SLC20A2 in 27 IBGC cases from the Mayo Clinic Florida Brain Bank using both Sanger sequencing and TaqMan copy number analysis to cover the complete spectrum of possible mutations. We identified SLC20A2 pathogenic mutations in two of the 27 cases of IBGC (7 %). Sequencing analysis identified a p.S113* nonsense mutation in SLC20A2 in one case. TaqMan copy number analysis of SLC20A2 further revealed a genomic deletion in a second case, which was part of a large previously reported Canadian IBGC family with dystonia. Subsequent whole-genome sequencing in this family revealed a 563,256-bp genomic deletion with precise breakpoints on chromosome 8 affecting multiple genes including SLC20A2 and the known dystonia-related gene THAP1. The deletion co-segregated with disease in all family members. The deletion of THAP1 in addition to SLC20A2 in the Canadian IBGC family may contribute to the severe and early onset dystonia in this family. The identification of an SLC20A2 genomic deletion in a familial form of IBGC demonstrates that reduced SLC20A2 in the absence of mutant protein is sufficient to cause neurodegeneration and that previously reported SLC20A2 mutation frequencies may be underestimated.

Assessment of oculomotor control and balance post-concussion: a preliminary study for a novel approach to concussion management.

PRIMARY OBJECTIVE: Balance disturbances occur in ∼30% of concussion injuries, with vestibular dysfunction reported as the main contributor. However, few have studied oculomotor control post-concussion to assess vestibular dysfunction. RESEARCH DESIGN: The current research measured the differences in oculomotor control between athletes post-concussion (PC) and athletes without concussion (NC) during an active balance control task. METHODS: Nine PC and nine NC athletes wore a monocular eye tracking device, while balance tests were performed using the Nintendo WiiFit® soccer heading game. Average game scores, eye deviations from centre (Gaze Deviations) and gaze fixation (Percentage Time on Centre) were measured. RESULTS: PC made significantly greater Gaze Deviations from centre compared to NC (p < 0.001), however Percentage Time on Centre and game scores were not significantly different between groups. Correlations between gaze and balance within groups revealed a significant positive correlation in NC, while a significant negative correlation in PC. CONCLUSIONS: Results from this exploratory examination of oculomotor behaviour post-concussion revealed significant differences in gaze stability between athletes with a concussion and those without, suggesting vestibular involvement post-concussion. Assessment of oculomotor control during balance activities may provide further insight into dysfunction of the vestibular system following a concussion injury.

VESPA: an optimized protocol for accurate metabarcoding-based characterization of vertebrate eukaryotic endosymbiont and parasite assemblages.

Protocols for characterizing taxonomic assemblages by deep sequencing of short DNA barcode regions (metabarcoding) have revolutionized our understanding of microbial communities and are standardized for bacteria, archaea, and fungi. Unfortunately, comparable methods for host-associated eukaryotes have lagged due to technical challenges. Despite 54 published studies, issues remain with primer complementarity, off-target amplification, and lack of external validation. Here, we present VESPA (Vertebrate Eukaryotic endoSymbiont and Parasite Analysis) primers and optimized metabarcoding protocol for host-associated eukaryotic community analysis. Using in silico prediction, panel PCR, engineered mock community standards, and clinical samples, we demonstrate VESPA to be more effective at resolving host-associated eukaryotic assemblages than previously published methods and to minimize off-target amplification. When applied to human and non-human primate samples, VESPA enables reconstruction of host-associated eukaryotic endosymbiont communities more accurately and at finer taxonomic resolution than microscopy. VESPA has the potential to advance basic and translational science on vertebrate eukaryotic endosymbiont communities, similar to achievements made for bacterial, archaeal, and fungal microbiomes.