Investigation of a dysmorphic facial phenotype in patients with Gaucher disease types 2 and 3.

Gaucher disease (GD) is a rare lysosomal storage disorder that is divided into three subtypes based on presentation of neurological manifestations. Distinguishing between the types has important implications for treatment and counseling. Yet, patients with neuronopathic forms of GD, types 2 and 3, often present at young ages and can have overlapping phenotypes. It has been shown that new technologies employing artificial intelligence and facial recognition software can assist with dysmorphology assessments. Though classically not associated nor previously described with a dysmorphic facial phenotype, this study investigated whether a facial recognition platform could distinguish between photos of patients with GD2 and GD3 and discriminate between them and photos of healthy controls. Each cohort included over 100 photos. A cross validation scheme including a series of binary comparisons between groups was used. Outputs included a composite photo of each cohort and either a receiver operating characteristic curve or a confusion matrix. Binary comparisons showed that the software could correctly group photos at least 89% of the time. Multiclass comparison between GD2, GD3, and healthy controls demonstrated a mean accuracy of 76.6%, compared to a 37.7% chance for random comparison. Both GD2 and GD3 have now been added to the facial recognition platform as established syndromes that can be identified by the algorithm. These results suggest that facial recognition and artificial intelligence, though no substitute for other diagnostic methods, may aid in the recognition of neuronopathic GD. The algorithm, in concert with other clinical features, also appears to distinguish between young patients with GD2 and GD3, suggesting that this tool can help facilitate earlier implementation of appropriate management.

Diagnosing neuronopathic Gaucher disease: New considerations and challenges in assigning Gaucher phenotypes.

Gaucher disease (GD), resulting from biallelic mutations in the gene GBA1, is a monogenic recessively inherited Mendelian disorder with a wide range of phenotypic presentations. The more severe forms of the disease, acute neuronopathic GD (GD2) and chronic neuronopathic GD (GD3), also have a continuum of disease severity with an overlap in manifestations and limited genotype-phenotype correlation. In very young patients, assigning a definitive diagnosis can sometimes be challenging. Several recent studies highlight specific features of neuronopathic GD that may provide diagnostic clues. Distinguishing between the different GD types has important therapeutic implications. Currently there are limited treatment options specifically for neuronopathic GD due to the difficulty in delivering therapies across the blood-brain barrier. In this work, we present both classic and newly appreciated aspects of the Gaucher phenotype that can aid in discriminating between acute and chronic neuronopathic GD, and highlight the continuing therapeutic challenges.

Enfermedad de Gaucher, importancia de una sospecha precoz / Gaucher disease: importance of early suspicion

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Ophthalmic manifestations of Gaucher disease: the most common lysosomal storage disorder.

Gaucher disease (GD) results from a deficiency of glucocerebrosidase activity and the subsequent accumulation of the enzyme's metabolites, principally glucosylsphingosine and glucosylceramide. There are three principal forms: Type I, which is the most common, is usually considered non-neuronopathic. Type II, III and IIIc manifest earlier and have neurological sequelae due to markedly reduced enzyme activity. Gaucher's can be associated with ophthalmological sequelae but these have not been systematically reviewed. We therefore performed a comprehensive literature review of all such ophthalmic abnormalities associated with the different types of Gaucher disease. We systematically searched the literature (1950 - present) for functional and structural ocular abnormalities arising in patients with Gaucher disease and found that all subtypes can be associated with ophthalmic abnormalities; these range from recently described intraocular lesions to disease involving the adnexae, peripheral nerves and brain. In summary, Gaucher can affect most parts of the eye. Rarely is it sight-threatening; some but not all manifestations are amenable to treatment, including with enzyme replacement and substrate reduction therapy. Retinal involvement is rare but patients with ocular manifestations should be monitored and treated early to reduce the risk of progression and further complications. As Gaucher disease is also associated with Parkinsons disease and may also confer an increased risk of malignancy (particularly haematological forms and melanoma), any ocular abnormalities should be fully investigated to exclude these potential underlying conditions.

Plasma chitotriosidase activity versus plasma glucosylsphingosine in wide spectrum of Gaucher disease phenotypes - A statistical insight.

Deficiency of beta-glucocerebrosidase (GBA) leads to Gaucher disease (GD), an inherited disorder characterised by storage of glucosylceramide (GlcCer) in lysosomes of tissue macrophages. Macrophages activated by accumulated GlcCer secrete chitotriosidase. Plasma chitotriosidase activity is significantly elevated in patients with active GD and has been suggested to indicate total body Gaucher cell load. There are two biomarkers used to assess the severity of GD - chitotriosidase has been measured for over 20 years, and deacylated GlcCer, known as glucosylsphingosine (GlcSph) is thought to be even more adequate, as it is almost a direct storage substrate. In this paper we focused entirely on statistical analysis, performing a thorough search of possible relations, dependencies and differences in the levels of these two biomarkers in a cohort of 64 Polish GD patients. We found that the treatment of GD with enzyme replacement therapy (ERT) changes the distribution of the disease biomarkers; their levels follow a normal distribution only in untreated patients. The variable "disease biomarker level" was found dependent of the binary variable "treated with ERT or not". It was found independent of the following variables: "disease type", "splenectomized or not", and "heterozygous for 24-bp duplication for CHIT1 variant" or "CHIT1 wild type". An almost perfect linear correlation (coefficient of determination R2 = 0.99) between the chitotriosidase activity and GlcSph level was revealed in splenectomized patients.

Lysosomal storage disorders: Morphologic appraisal in Indian population.

BACKGROUND: Lysosomal storage disorders (LSDs) comprise a group of at least 50 distinct genetic diseases, each one resulting from the deficiency of a particular lysosomal enzyme involved in metabolism. We attempt to study and further subclassify pediatric LSDs into Gaucher's and non-Gaucher's category based on the morphologic variables seen in the bone marrow aspiration smears and trephine biopsy sections. MATERIALS AND METHODS: Pediatric (<12 years age) cases of LSDs diagnosed by bone marrow aspiration and trephine biopsy specimens, in the last 12 years period, were retrieved. The archival material and the relevant clinical as well as hematologic parameters were reviewed. RESULTS: From January 1997 to December 2008, 55 cases were diagnosed as LSDs. Based on bone marrow morphology, 56% (n = 31) cases were diagnosed as non-Gaucher's and the remaining 44% (n = 24) cases as Gaucher's disease, the ratio being 1.29:1. Anemia and thrombocytopenia were more commonly observed in Gaucher's disease (91.67 and 62.5%) as compared to non-Gaucher's group (74.19 and 19.35%). Neurologic symptoms and signs were more frequently present in non-Gaucher's cases (45.16%) as compared to Gaucher's group (29.17%). CONCLUSION: LSDs can be classified into Gaucher's and non-Gaucher's subtypes based on the characteristic cytomorphology of the storage cells in Giemsa-stained bone marrow aspiration smears and on hematoxylin and eosin-stained trephine biopsy sections. This approach would be fairly adequate for therapeutic and prognostic purposes in resource.constrained settings, where enzyme studies and mutational analysis may not be easily available.

Long-term hematological, visceral, and growth outcomes in children with Gaucher disease type 3 treated with imiglucerase in the International Collaborative Gaucher Group Gaucher Registry.

In Gaucher disease (GD), deficiency of lysosomal acid ß-glucosidase results in a broad phenotypic spectrum that is classified into three types based on the absence (type 1 [GD1]) or presence and severity of primary central nervous system involvement (type 2 [GD2], the fulminant neuronopathic form, and type 3 [GD3], the milder chronic neuronopathic form). Enzyme replacement therapy (ERT) with imiglucerase ameliorates and prevents hematological and visceral manifestations in GD1, but data in GD3 are limited to small, single-center series. The effects of imiglucerase ERT on hematological, visceral and growth outcomes (note: ERT is not expected to directly impact neurologic outcomes) were evaluated during the first 5years of treatment in 253 children and adolescents (<18years of age) with GD3 enrolled in the International Collaborative Gaucher Group (ICGG) Gaucher Registry. The vast majority of GBA mutations in this diverse global population consisted of only 2 mutations: L444P (77%) and D409H (7%). At baseline, GD3 patients exhibited early onset of severe hematological and visceral disease and growth failure. During the first year of imiglucerase treatment, hemoglobin levels and platelet counts increased and liver and spleen volumes decreased, leading to marked decreases in the number of patients with moderate or severe anemia, thrombocytopenia, and hepatosplenomegaly. These improvements were maintained through Year 5. There was also acceleration in linear growth as evidenced by increasing height Z-scores. Despite devastating disease at baseline, the probability of surviving for at least 5years after starting imiglucerase was 92%. In this large, multinational cohort of pediatric GD3 patients, imiglucerase ERT provided a life-saving and life-prolonging benefit for patients with GD3, suggesting that, with proper treatment, many such severely affected patients can lead productive lives and contribute to society.

New Directions in Gaucher Disease.

In Gaucher disease (GD), mutant lysosomal acid ß-glucocerebrosidase fails to properly hydrolyze its substrate, glucosylceramide, which accumulates in the lysosomes. Due to its phenotypic heterogeneity, GD has been classified into type 1, non-neuronopathic, and types 2 and 3, the neuronopathic forms, based on the primary involvement of the central nervous system. Neuroinflammation and necroptotic death may appear in the neuronopathic forms of GD, whereas type 1 GD patients may develop Parkinson disease (PD), a prototype of protein misfolding disorders of the nervous system. PD is significantly more prevalent among GD carriers and patients than among the non-GD populations. It is apparent that the amount of mutant enzyme present in lysosomes depends on the amount of mutant enzyme recognized as correctly folded in the endoplasmic reticulum (ER) for physiologically correct transport through the Golgi apparatus to the lysosome. Mutant enzyme recognized as misfolded is retained in the ER, inducing the Unfolded Protein Response. In the current review, we present three discrete areas of interest: molecular and cellular mechanisms underlying the association between GD and PD; the clinical and genetic associations between GD and PD; and treatment options for GD. We also discuss the relevance of induced pleuripotent stem cells to the above associations.

Catepsina K como biomarcador de afectación ósea en la enfermedad de Gaucher tipo 1 / Cathepsin K as a biomarker of bone involvement in type 1 Gaucher disease

Fundamento y objetivo: La enfermedad de Gaucher es un trastorno hereditario, que se origina como consecuencia del déficit de la actividad β-glucocerebrosidasa ácida, responsable de la degradación de glucosilceramida hasta ceramida y glucosa. Aunque el trastorno de base es fundamentalmente hematológico, el hueso es la segunda estructura más frecuentemente afectada. La catepsina K (CATK) es una enzima implicada en el proceso de remodelado óseo, habiéndose propuesto que la determinación de sus concentraciones séricas podría aportar información complementaria a la de otros biomarcadores. Pacientes y métodos: Se realizó un estudio en 20 controles sanos y 20 pacientes con enfermedad de Gaucher tipo 1, de las comunidades autónomas de Andalucía y Extremadura. Se determinaron como biomarcadores de remodelado óseo la bone alkaline phosphatase (B-ALP, «fosfatasa alcalina ósea»), el amino-terminal propeptide of procollagen type 1 (P1NP, «propéptido aminoterminal del procolágeno 1»), la β-Cross Laps, carboxy-terminal telopeptide of collagen type 1 (CTx, «fracción β del colágeno tipo 1») y CATK por técnicas de electroquimioluminiscencia y enzimoinmunoanálisis. Resultados: Existe un incremento en los niveles de CATK y las ratios CATK/P1NP y CATK/B-ALP en los pacientes con Gaucher tipo 1 respecto a la media obtenida en el grupo control. Por otro lado, considerando la existencia o no de manifestaciones óseas en el grupo de pacientes, la CATK y la ratio CATK/P1NP muestran niveles medios superiores en aquellos pacientes con daño óseo respecto a los que no lo presentan. Conclusiones: Aunque los estudios radiológicos constituyen el gold-standard para el seguimiento de enfermedad ósea en pacientes con enfermedad de Gaucher tipo 1, debe considerarse la utilidad de la CATK como posible indicador de daño óseo en estos pacientes. Asimismo, este parámetro puede utilizarse en la monitorización del tratamiento de la enfermedad ósea (AU)

Background and objective: Gaucher disease is an inherited disorder caused by deficit of acid β-glucocerebrosidase, responsible for the degradation of glucosylceramide to ceramide and glucose. Although the disorder is primarily hematologic, bone is the second most commonly affected structure. Cathepsin K (CATK) is an enzyme involved in bone remodelling process. It has been proposed that determination of its serum concentrations may provide additional information to other biomarkers. Patients and methods: The study included 20 control subjects and 20 Gaucher type 1 patients from Andalusia and Extremadura regions. We analyzed the biomarkers of bone remodelling: the bone alkaline phosphatase (B-ALP), the N-terminal propeptide of type 1 procollagen (P1NP), the β carboxyterminal telopeptide of type 1 collagen (CTx) and the CATK through electrochemiluminescence and immunoassay techniques. Results: There is an increase in levels of CATK, CATK/P1NP and CATK/B-ALP ratios in type 1 Gaucher patients compared to the control group. Considering the existence of skeletal manifestations in the patient group, the CATK and CATK/P1NP ratio showed higher levels in patients with bone damage compared to those without it. Conclusions: Although imaging studies are the gold standard for monitoring bone disease in type 1 Gaucher patients, the utility of CATK should be considered as a possible indicator of bone damage in these patients. Furthermore, this parameter can be used in the monitoring of the treatment of bone pathology (AU)

Gaucher disease types 1 and 3: Phenotypic characterization of large populations from the ICGG Gaucher Registry.

Study of the natural history of Gaucher disease has revealed marked phenotypic variation. Correlations to genotypes could provide insight into individual susceptibility to varying disease severity, which may impact whole-life medical care, reproductive decisions, and therapeutic choices for affected families. Importantly, pre-symptomatic or prospective interventions or the use of therapies with significant risk require accurate risk-benefit analyses based on the prognosis for individual patients. The body of international data held within the International Collaborative Gaucher Group (ICGG) Gaucher Registry provides an unprecedented opportunity to characterize the phenotypes of Gaucher disease types 1 and 3 and to appreciate demographic and ethnic factors that may influence phenotypes. The diversity of GBA gene mutations from patients with Gaucher disease represented in the ICGG Gaucher Registry database and in the literature provides the basis for initial genotype/phenotype correlations, the outcomes of which are summarized here.

Gaucher disease: haematological presentations and complications.

Gaucher disease (GD) is an autosomal recessive lysosomal storage disease, caused by deficiency of the enzyme glucocerebrosidase, required for the degradation of glycosphingolipids. Clinical manifestations include hepatosplenomegaly, thrombocytopenia, bone disease and a bleeding diathesis, frequently resulting in presentation to haematologists. Historically managed by splenectomy, transfusions and orthopaedic surgery, the development of specific therapy in the form of intravenous enzyme replacement therapy in the 1990s has resulted in dramatic improvements in haematological and visceral disease. Recognition of complications, including multiple myeloma and Parkinson disease, has challenged the traditional macrophage-centric view of the pathophysiology of this disorder. The pathways by which enzyme deficiency results in the clinical manifestations of this disorder are poorly understood; altered inflammatory cytokine profiles, bioactive sphingolipid derivatives and alterations in the bone marrow microenvironment have been implicated. Further elucidating these pathways will serve to advance our understanding not only of GD, but of associated disorders.

Glucocerebrosidase is shaking up the synucleinopathies.

The lysosomal enzyme glucocerebrosidase, encoded by the glucocerebrosidase gene, is involved in the breakdown of glucocerebroside into glucose and ceramide. Lysosomal build-up of the substrate glucocerebroside occurs in cells of the reticulo-endothelial system in patients with Gaucher disease, a rare lysosomal storage disorder caused by the recessively inherited deficiency of glucocerebrosidase. Gaucher disease has a broad clinical phenotypic spectrum, divided into non-neuronopathic and neuronopathic forms. Like many monogenic diseases, the correlation between clinical manifestations and molecular genotype is not straightforward. There is now a well-established clinical association between mutations in the glucocerebrosidase gene and the development of more prevalent multifactorial disorders including Parkinson's disease and other synucleinopathies. In this review we discuss recent studies advancing our understanding of the cellular relationship between glucocerebrosidase and α-synuclein, the potential impact of established and emerging therapeutics for Gaucher disease for the treatment of the synucleinopathies, and the role of lysosomal pathways in the pathogenesis of these neurodegenerative disorders.

Hypercoagulability, parkinsonism, and Gaucher disease.

Gaucher disease (GD) is a lysosomal disorder caused by inherited deficiency of glucocerebrosidase (GCase), resulting in the accumulation of glucocerebroside in macrophages, termed "Gaucher cells," leading to multiorgan involvement, with hepatosplenomegaly, cytopenias, pulmonary hypertension, and skeletal complications. Various mutations, encoding the GCase gene, cause acute or chronic neuronopathic forms of the disease. The hallmark of GD is the macrophages infiltrating organs, bone marrow, and nervous system compromising their function by inflammation, infarcts, fibrosis, and neuronal damage. Coagulation abnormalities are frequent among GD patients due to reduced production and chronic consumption of coagulation factors. Splenic and bone infarcts often occur in GD patients, but hypercoagulability is not frequent. Detection of thrombophilic risk factors in GD patients may predict a more severe course of the disease. Clinical and genetic studies revealed an association between reduced GCase activity in carriers of GD mutations and GD patients and occurrence of Parkinson disease (PD) and showed that GCase gene mutations are risk factors for PD development. The mechanisms underlying the association of PD and GD are not yet elucidated and should be further explored, particularly the potential involvement of inflammation and coagulation in the neurovascular unit.

Cell surface associated glycohydrolases in normal and Gaucher disease fibroblasts.

Gaucher disease (GD) is the most common lysosomal disorder and is caused by an inherited autosomal recessive deficiency in ß-glucocerebrosidase. This enzyme, like other glycohydrolases involved in glycosphingolipid (GSL) metabolism, is present in both plasma membrane (PM) and intracellular fractions. We analyzed the activities of CBE-sensitive ß-glucosidase (GBA1) and AMP-DNM-sensitive ß-glucosidase (GBA2) in total cell lysates and PM of human fibroblast cell lines from control (normal) subjects and from patients with GD clinical types 1, 2, and 3. GBA1 activities in both total lysate and PM of GD fibroblasts were low, and their relative percentages were similar to those of control cells. In contrast, GBA2 activities were higher in GD cells than in control cells, and the degree of increase differed among the three GD types. The increase of GBA2 enzyme activity was correlated with increased expression of GBA2 protein as evaluated by QRT-PCR. Activities of ß-galactosidase and ß-hexosaminidase in PM were significantly higher for GD cells than for control cells and also showed significant differences among the three GD types, suggesting the occurrence of cross-talk among the enzymes involved in GSL metabolism. Our findings indicate that the profiles of glycohydrolase activities in PM may provide a valuable tool to refine the classification of GD into distinct clinical types.

Características clínicas de las formas neurológicas de la enfermedad de Gaucher / Clinical characteristics of the neurological forms of Gaucher's disease

La enfermedad de Gaucher es la más frecuente de las enfermedades de acúmulo de glucoesfingolípidos. La afectación neurológica se utiliza para clasificar los distintos tipos de la enfermedad. El tipo 1 afecta aproximadamente al 90% de los pacientes, y presenta manifestaciones viscerales y de la médula ósea, sin afectar al sistema nervioso. El tipo 2 se considera una forma aguda de enfermedad con afectación grave del sistema nervioso y fallecimiento antes de los 2 años de edad. El tipo 3 es más tardío, con síntomas neurológicos lentamente progresivos y supervivencia hasta la tercera década. Junto a estos síndromes clásicos, el mejor conocimiento de la enfermedad relacionada con la existencia de registros nacionales, la mayor supervivencia de los pacientes derivada del tratamiento sustitutivo y la demostración del comportamiento de las mutaciones de glucocerebrosidasa como un factor de riesgo para enfermedades neurodegenerativas, ha ampliado el fenotipo clínico y alterado la clasificación clásica de la enfermedad (AU)

Gaucher’s disease is the most prevalent disease of accumulation of glycosphingolipids. Neurological involvement is used to classify the different types of the disease. Type 1 affects approximately 90% of patients, and visceral manifestations and bone marrow, without affecting the nervous system. Type 2 is considered a severe form of disease with severe nervous system and death within two years. Type 3 is late, slowly progressive neurological symptoms and survival until the third decade. Besides these classical syndromes, the best knowledge of the disease related to the existence of national registries, the increased survival of patients resulting from replacement therapy, and demonstration of the behavior of glucocerebrosidase mutations as a risk factor of neurodegenerative diseases, has expanded the clinical phenotype and altered the traditional classification of the disease (AU)

Enfoque clínico, terapéutico y evolutivo de la enfermedad de Gaucher / Gaucher disease: clinical and therapeutic approach

Presentación del caso de un niño de dos años diagnosticado con Enfermedad de Gaucher tipo I, que actualmente cursa su tercer año de tratamiento con buena respuesta

Four-year follow-up of chronic neuronopathic Gaucher disease in Europeans using a modified severity scoring tool.

In 2007, the European Task Force for neuronopathic Gaucher disease (NGD) published a review of 55 patients across four countries. Although some observations were possible, analysis was difficult due to the absence of a systematic way of assessing patients. In response to this, a Severity Scoring Tool (SST) was devised to offer a systematic means of assessing the neurological presentation seen. The SST has been modified (mSST) and is a valid tool for monitoring neurological progression. This review describes disease status and progression of neurological manifestations in a cohort of 39 chronic NGD patients across three European countries over a period of 4 years, using the mSST.