A novel CRISPR/Cas9-based iduronate-2-sulfatase (IDS) knockout human neuronal cell line reveals earliest pathological changes

Multiple complex intracellular cascades contributing to Hunter syndrome (mucopolysaccharidosis type II) pathogenesis have been recognized and documented in the past years. However, the hierarchy of early cellular abnormalities leading to irreversible neuronal damage is far from being completely understood. To tackle this issue, we have generated two novel iduronate-2-sulfatase (IDS) loss of function human neuronal cell lines by means of genome editing. We show that both neuronal cell lines exhibit no enzymatic activity and increased GAG storage despite a completely different genotype. At a cellular level, they display reduced differentiation, significantly decreased LAMP1 and RAB7 protein levels, impaired lysosomal acidification and increased lipid storage. Moreover, one of the two clones is characterized by a marked decrease of the autophagic marker p62, while none of the two mutants exhibit marked oxidative stress and mitochondrial morphological changes. Based on our preliminary findings, we hypothesize that neuronal differentiation might be significantly affected by IDS functional impairment

Automated Response Matching for Organic Scintillation Detector Arrays

This paper identifies a digitizer technology with unique features that facilitates feedback control for the realization of a software-based technique for automatically calibrating detector responses. Three such auto-calibration techniques have been developed and are described along with an explanation of the main configuration settings and potential pitfalls. Automating this process increases repeatability, simplifies user operation, enables remote and periodic system calibration where consistency across detectors’ responses are critical

Mucopolysaccharidosis type II: preliminary data on glycosaminoglycan levels and structure in mice at baseline and after 6 weeks treatment with ERT

Mucopolysaccharidosis type II is a lysosomal storage disease due to the deficit of the enzyme iduronate 2-sulfatase (IDS) and to the consequent accumulation of heparan- (HS) and dermatan-sulfate (DS), with multi-organ involvement. In this study we characterized glycosaminoglycan (GAG) levels and structure in the brain and liver of the Ids knock-out mouse model, at 12 weeks of age and after 6 weeks treatment with human IDS (hIDS) enzyme, by using the capillary electrophoresis-laser induced fluorescence (CE-LIF) technique. As expected, Ids-ko mice showed a heavy accumulation of HS, about 15 times higher than wild-type (wt) in the brain and up to 240 times in the liver. The overall HS charge density rose by 1.5 times only in the liver, but the sulfation pattern changed in both organs. We also observed an increased chondroitin-sulfate (CS)+DS levels of about 2 times in the brain and 5 times in the liver, but an increased CS/DS ratio of about 22 times only in the liver. On the contrary, the hyaluronic acid (HA) levels did not change in both organs. We also conducted the same analysis in Ids-ko mice treated with 1 mg/kg of hIDS, once a week. As expected, we observed in the liver a huge reduction of HS (20 times vs untreated mice) and also of CS+DS and CS/DS. Instead, we did not observe a reduction of the different GAGs in the brain, confirming the enzyme inability to cross BBB. In this district a slight increase of CS/DS ratio, CS+DS and HA levels, and an about 40% increase of HS level, vs untreated ko mice, was observed. On the opposite, the overall HS charge density is decreased 2.5X vs untreated ko and wt mice. This preliminary data underline how by using a more sensitive technique of analysis, a clear separation of the GAGs pattern between wt and Ids-ko mice can be observed. This results particularly important for the brain, where application of common biochemical techniques detects very low GAG levels in both animal types, thus limiting the use of GAG analysis as possible biomarker of therapeutic efficacy in the brain district. The application of CE-LIF analysis is therefore proposed for a detailed evaluation of GAG pattern for potential monitoring of therapeutic efficacy

Approccio globale alle mucopolisaccaridosi: applicazione di metodi altamente specifici per la diagnosi neonatale: risultati preliminari su campione di urina

Scopo dello studio Le Mucopolisaccaridosi (MPS) sono patologie multisistemiche ed invalidanti ad alto grado di mortalit\ue0 e morbidit\ue0, spesso diagnosticate in ritardo quando si sono gi\ue0 verificati danni irreversibili agli organi. Una diagnosi precoce ed accurata risulta quindi importante per la consulenza genetica alla famiglia e per ottimizzare le terapie che risultano pi\uf9 efficaci se attuate sin dalle prime settimane di vita del neonato, anche in assenza di un\u2019evidente sintomatologia. Obiettivo dello studio \ue8 quello di individuare marker affidabili, in grado di identificare diverse forme di MPS in una singola analisi. Campioni di sangue su spot (DBS) saranno analizzati attraverso una tecnica HPLC per la determinazione quantitativa e qualitativa dei disaccaridi che compongono i GAG, dopo il trattamento con enzimi specifici. Come controllo, i campioni di urine degli stessi soggetti verranno analizzati attraverso metodi standard: il saggio al colorante DMB e l\u2019elettroforesi su acetato di cellulosa. Vengono qui presentati i risultati della valutazione quantitativa e qualitativa dei GAG urinari. Metodi utilizzati Sono stati raccolti campioni di urina da 450 neonati sani a termine, dal 3\ub0 al 5\ub0 giorno di vita. La determinazione quantitativa dei GAG urinari totali \ue8 stata condotta mediante DMB test ed elettroforesi su acetato di cellulosa per identificare il pattern dei GAG escreti. Risultati La valutazione quantitativa dei GAG totali, con un valore medio di 227 \ub1 91 \ub5g GAG/mg di creatinina, ha messo in evidenza quantit\ue0 di GAG superiori (>50%) rispetto al valore medio di riferimento (114 \ub1 57 \ub5g GAG/mg di creatinina nella fascia di et\ue0 0-1 anno). Tutti i soggetti finora analizzati hanno mostrato all\u2019elettroforesi un pattern qualitativo normale rispetto ai patologici utilizzati come controllo. Conclusioni Lo studio si inserisce nell\u2019ambito di un progetto multicentrico triennale e fornir\ue0 un\u2019analisi di distribuzione dei valori normali dei GAG urinari nei primi giorni di vita, una valutazione dell\u2019affidabilit\ue0 del nuovo metodo per la determinazione dei disaccaridi su DBS e una stima della sua applicabilit\ue0. Ricerca in parte finanziata con fondi Progetto PRIN 201

Molecular diagnosis of patients affected by mucopolysaccharidosis: a multicenter study

Mucopolysaccharidoses (MPS) are a subgroup of 11 monogenic lysosomal storage disorders due to the deficit of activity of the lysosomal hydrolases deputed to the degradation of mucopolysaccharides. Although individually rare, all together they account for at least 1:25,000 live births. In this study, we present the genetic analysis of a population of 71 MPS patients enrolled in a multicenter Italian study. We re-annotated all variants, according to the latest recommendations, and re-classified them as suggested by the American College of Medical Genetics and Genomics. Variant distribution per type was mainly represented by missense mutations. Overall, 10 patients had received no molecular diagnosis, although 6 of them had undergone either HSCT or ERT, based on clinical and enzymatic evaluations. Moreover, nine novel variants are reported. Conclusions: Our analysis underlines the need to complete the molecular diagnosis in patients previously diagnosed only on a biochemical basis, suggests a periodical re-annotation of the variants and solicits their deposition in public databases freely available to clinicians and researchers.We strongly recommend a molecular diagnosis based on the analysis of the \u201ctrio\u201d instead of the sole proband. These recommendations will help to obtain a complete and correct diagnosis of mucopolysaccharidosis, rendering also possible genetic counseling

Effects of Benzopyrene-7,8-Diol-9,10-Epoxide (BPDE) In Vitro and of Maternal Smoking In Vivo on Micronuclei Frequencies in Fetal Cord Blood

Up to 20% of pregnant women smoke and there is indirect evidence that certain tobacco-specific metabolites can cross the placental barrier and are genotoxic to the fetus. The presence of micronuclei results from chromosome damage and reflects the degree of underlying genetic instability. Fetal blood was obtained from the cord blood of 143 newborns (102 from nonsmoking mothers and 41 from mothers smoking >10 cigarettes/d during pregnancy). The micronucleus assay was performed following the guidelines established by the Human MicroNucleus project with modifications. To test the micronucleus assay, we evaluated the effect of a range of benzopyrene-7,8-diol-9,10-epoxide concentrations (from 3.125 nM to 4 microM) on cord blood from nonsmoking mothers. This validation showed that the number of micronuclei and apoptotic cells increased with benzopyrene-7,8-diol-9,10-epoxide dose (p < 0.0001 and p = 0.001, respectively); the minimal detectable effect was induced by 12.5 nM benzopyrene-7,8-diol-9,10-epoxide. In our sample, the number of MN was significantly higher in the 41 cord blood samples from mothers who smoked during pregnancy [smokers: 4 (1; 10.5); nonsmokers: 3 (0; 8); p = 0.016]. Therefore, the data reported herein support the hypothesis that tobacco compounds are able to induce chromosomal losses and breaks that are detectable as an increased number of micronuclei

Normal and Cut-Off Values of the Cytokinesis-Block Micronucleus Assay on Peripheral Blood Lymphocytes in the Croatian General Population

Mikronukleus (MN) test na limfocitima periferne krvi jedna je od najvažnijih metoda koje se primjenjuju u citogenetičkom nadzoru. Osnovni preduvjet za primjenu nekog testa u svrhu nadzora profesionalno izloženih populacija jest poznavanje normalnih vrijednosti promatranoga biološkog pokazatelja (biomarkera) u kontrolnoj populaciji. Baze podataka na razini opće populacije moraju se redovito obnavljati novim podacima. Cilj ovog istraživanja bio je utvrditi normalne i granične vrijednosti MN-testa na limfocitima periferne krvi 200 zdravih ispitanika obaju spolova iz opće populacije Republike Hrvatske te ispitati koji čimbenici pridonose spontanom nastanku MN. Na razini istražene populacije utvrđeno je prosječno (6,90±3,32) MN (medijan 7 MN), dok je raspon pojedinačnih vrijednosti iznosio 0 do 18 MN u 1000 binuklearnih stanica. Gornja granična vrijednost dobivena izračunavanjem 95. percentila za cjelokupnu promatranu populaciju iznosi 12,5 MN na 1000 limfocita. Utvrđeno je da na spontani nastanak MN utječu spol, dob i navika pušenja. Žene u prosjeku imaju više vrijednosti svih parametara MN-testa od muškaraca, a u njih je bio i naglašeniji porast vrijednosti citogenetičkog nalaza zbog navike pušenja. Kako su literaturni podaci o utjecaju pušenja cigareta na nastanak MN kontradiktorni, planiran je nastavak istraživanja radi razjašnjavanja utjecaja dnevno utrošenog broja cigareta i ukupnog trajanja pušačkog staža na vrijednosti parametara MN-testa. Usporedba rezultata s literaturnim podacima potvrdila je da su dobivene vrijednosti u skladu s vrijednostima MN-testa zabilježenim na općoj populaciji u drugim svjetskim laboratorijima. Normalne i granične vrijednosti MN-testa utvrđene u ovome istraživanju poslužit će kao osnova za usporedbu i tumačenje nalaza MN-testa u ispitanika izloženih populacija te daljnju nadogradnju laboratorijske baze podataka.The cytokinesis-block micronucleus (CBMN) assay on peripheral blood lymphocytes is one of the most important methods employed in cytogenetic biomonitoring. For the purposes of biological dosimetry, it is important to kno the spontaneous frequency of a biomarker and its normal values in general population. These values are used for population databases, which should be updated regularly. In this study, MN levels were investigated in cytokinesis-blocked lymphocytes of 200 healthy male and female blood donors selected at random from the general population of Croatia. The aim was to assess the variability and determine possible infl uences of external and/or internal factors on the background levels of MN and to establish the cut-off value for the CBMN assay. The background frequency of MN was (6.90±3.32) MN (median 7 MN) and the range was 0 to 18 MN per 1000 binuclear lymphocytes. The cut-off value, which corresponds to 95th percentile of the distribution of 200 individual values, was 12.5 MN. Spontaneous formation of MN was infl uenced by sex, age, and smoking. Women had higher MN levels than men. However, only age and smoking signifi cantly increased the values of all parameters evaluated by the CBMN assay. Since the existing literature data on smoking-related formation of MN are contradictory, we will continue these investigations to resolve how the number of cigarettes smoked per day and the duration of smoking in years infl uence the results of the CBMN assay. Our results are consistent with the background MN frequencies reported by other cytogenetic laboratories worldwide. Normal and cut-off values estimated in this study will be used to update the current general population data and as reference for occupationally or accidental exposure

Drosophila d-idua reduction mimics mucopolysaccharidosis type i disease-related phenotypes

Deficit of the IDUA (α-L-iduronidase) enzyme causes the lysosomal storage disorder mucopolysaccharidosis type I (MPS I), a rare pediatric neurometabolic disease, due to pathological variants in the IDUA gene and is characterized by the accumulation of the undegraded mucopolysac-charides heparan sulfate and dermatan sulfate into lysosomes, with secondary cellular consequences that are still mostly unclarified. Here, we report a new fruit fly RNAi-mediated knockdown model of a IDUA homolog (D-idua) displaying a phenotype mimicking some typical molecular features of Lysosomal Storage Disorders (LSD). In this study, we showed that D-idua is a vital gene in Drosophila and that ubiquitous reduction of its expression leads to lethality during the pupal stage, when the precise degradation/synthesis of macromolecules, together with a functional autophagic pathway, are indispensable for the correct development to the adult stage. Tissue-specific analysis of the D-idua model showed an increase in the number and size of lysosomes in the brain and muscle. Moreover, the incorrect acidification of lysosomes led to dysfunctional lysosome-autophagosome fusion and the consequent block of autophagy flux. A concomitant metabolic drift of glycolysis and lipogenesis pathways was observed. After starvation, D-idua larvae showed a quite complete rescue of both autophagy/lysosome phenotypes and metabolic alterations. Metabolism and autophagy are strictly interconnected vital processes that contribute to maintain homeostatic control of energy balance, and little is known about this regulation in LSDs. Our results provide new starting points for future investigations on the disease’s pathogenic mechanisms and possible pharmacological manipulations