Deborah Elstein

Novel oral treatment of Gaucher's disease with N-butyldeoxynojirimycin (OGT 918) to decrease substrate biosynthesis

BACKGROUND Current treatment for Gauchers disease involves administration of intravenous glucocerebrosidase to degrade glucocerebroside stored in lysosomes. Lowering the rate of biosynthesis of glucocerebroside should decrease accumulation of this substrate. We investigated the safety and efficacy of OGT 918 (N-butyldeoxynojirimycin), an inhibitor of glucosyltransferase, as a novel oral treatment for non-neuronopathic Gauchers disease. METHODS We recruited, into a 1-year open-label study, 28 adults (seven with previous splenectomies) from four national Gauchers referral clinics, who were unable or unwilling to receive enzyme treatment. We measured liver and spleen volume by computed tomography or magnetic resonance imaging at baseline and at months 6 and 12, and biochemical and haematological variables monthly, including chitotriosidase activity (a sensitive marker of Gauchers disease activity). Patients were started on 100 mg oral OGT 918 three times daily. FINDINGS Baseline liver volumes were 1.1-2.7 times normal and spleen volumes 5.1-24.8 times normal. At 12 months, mean liver and spleen volumes were significantly lowered by 12% (95% CI 7.8-16.4) and 19% (14.3-23.7), respectively (each p<0.001). Haematological variables improved slightly. Mean organ volume and blood counts improved continually between 6 months and 12 months of treatment. Mean chitotriosidase concentrations fell by 16.4% over 12 months (p<.0001). Six patients withdrew because of gastrointestinal complaints (two), personal reasons (two), or severe pre-existing disease (two). The most frequent adverse effect was diarrhoea, which occurred in 79% of patients shortly after the start of treatment. INTERPRETATION Decrease of substrate formation by OGT 918 improves key clinical features of non-neuronopathic Gauchers disease. The strategy justifies further trials in this and other glycosphingolipid storage disorders.

Sustained therapeutic effects of oral miglustat (Zavesca, N-butyldeoxynojirimycin, OGT 918) in type I Gaucher disease

Summary: It has been shown that treatment with miglustat (Zavesca, N-butyldeoxynojirimycin, OGT 918) improves key clinical features of type I Gaucher disease after 1 year of treatment. This study reports longer-term efficacy and safety data. Patients who had completed 12 months of treatment with open-label miglustat (100-300 mg three times daily) were enrolled to continue with therapy in an extension study. Data are presented up to month 36. Liver and spleen volumes measured by CT or MRI were scheduled every 6 months. Biochemical and haematological parameters, including chitotriosidase activity (a sensitive marker of Gaucher disease activity) were monitored every 3 months. Safety data were also collected every 3 months. Eighteen of 22 eligible patients at four centres entered the extension phase and 14 of these completed 36 months of treatment with miglustat. After 36 months, there were statistically significant improvements in all major efficacy endpoints. Liver and spleen organ volumes were reduced by 18% and 30%, respectively. In patients whose haemoglobin value had been below 11.5 g/dl at baseline, mean haemoglobin increased progressively from baseline by 0.55 g/dl at month 12 (NS), 1.28 g/dl at month 24 (p=0.007), and 1.30 g/dl at month 36 (p=0.013). The mean platelet count at month 36 increased from baseline by 22×109/L. No new cases of peripheral neuropathy occurred since previously reported. Diarrhoea and weight loss, which were frequently reported during the initial 12-month study, decreased in magnitude and prevalence during the second and third years. Patients treated with miglustat for 3 years show significant improvements in organ volumes and haematological parameters. In conclusion, miglustat was increasingly effective over time and showed acceptable tolerability in patients who continued with treatment for 3 years.

Gaucher's disease variant characterised by progressive calcification of heart valves and unique genotype

Gauchers disease is the most prevalent sphingolipid storage disease, characterised by substantial genetic and phenotypic variability. Cardiac manifestations are rare. We report 12 Arab Gauchers disease patients, 2-20 years of age, who presented with oculomotor apraxia but only slight classic signs of the disease. All but the youngest had calcifications of the aortic or mitral valves or both. All these patients were homozygous for the rare point mutation D409H (1342C). Valvular calcifications increased with age and showed progression during 2 years of follow-up. Two of the oldest patients underwent aortic valve replacement, and one sibling had died suddenly at age 16, before this study, Corneal opacities were another common feature. The potentially fatal course of this Gauchers disease variant, and the availability of a reliable PCR-based method for heterozygote detection, mean that population screening and genetic counselling in the geographic area at risk are important. Affected individuals should be closely monitored by echocardiography to gauge the need for valve replacement. The potential of enzyme replacement to prevent these cardiac complications cannot be ascertained at present, because of the high cost of therapy.

Pivotal trial with plant cell-expressed recombinant glucocerebrosidase, taliglucerase alfa, a novel enzyme replacement therapy for Gaucher disease

Taliglucerase alfa (Protalix Biotherapeutics, Carmiel, Israel) is a novel plant cell-derived recombinant human β-glucocerebrosidase for Gaucher disease. A phase 3, double-blind, randomized, parallel-group, comparison-dose (30 vs 60 U/kg body weight/infusion) multinational clinical trial was undertaken. Institutional review board approvals were received. A 9-month, 20-infusion trial used inclusion/exclusion criteria in treatment-naive adult patients with splenomegaly and thrombocytopenia. Safety end points were drug-related adverse events: Ab formation and hypersensitivity reactions. Primary efficacy end point was reduction in splenic volume measured by magnetic resonance imaging. Secondary end points were: changes in hemoglobin, hepatic volume, and platelet counts. Exploratory parameters included biomarkers and bone imaging. Twenty-nine patients (11 centers) completed the protocol. There were no serious adverse events; drug-related adverse events were mild/moderate and transient. Two patients (6%) developed non-neutralizing IgG Abs; 2 other patients (6%) developed hypersensitivity reactions. Statistically significant spleen reduction was achieved at 9 months: 26.9% (95% confidence interval [CI]: -31.9, -21.8) in the 30-unit dose group and 38.0% (95% CI: -43.4, -32.8) in the 60-unit dose group (both P < .0001); and in all secondary efficacy end point measures, except platelet counts at the lower dose. These results support safety and efficacy of taliglucerase alfa for Gaucher disease.

Phase 1/2 and extension study of velaglucerase alfa replacement therapy in adults with type 1 Gaucher disease: 48-month experience

Enzyme replacement therapy is the standard of care for symptomatic Gaucher disease. Velaglucerase alfa is a human beta-glucocerebrosidase produced in a well-characterized human cell line. A 9-month phase 1/2 open-label, single-center trial and ongoing extension study were conducted to evaluate safety and efficacy of velaglucerase alfa. Twelve symptomatic adult type 1 Gaucher patients (intact spleens) received velaglucerase alfa (60 U/kg per infusion) during phase 1/2. An extension study was offered to patients completing the trial; step-wise dose reduction (to 30 U/kg per infusion) was instituted. Eleven patients completed phase 1/2; 10 entered the extension; 9 patients reached 39 months of extension. No drug-related serious adverse events or withdrawals, and no antibodies were observed. Home therapy was successfully implemented during the extension. Statistically significant improvements (P < .004) were noted in mean percentage change from baseline to 9 months and baseline to 48 months for hemoglobin (+19.2%, +21.7%, respectively), platelet counts (+67.6%, +157.8%, respectively), normalized liver volume (-18.2%, -42.8%, respectively), and normalized spleen volume (-49.5%, -79.3%, respectively). These significant clinical changes and safety profile led to phase 3 trials and highlight the potential of velaglucerase alfa as alternative therapy for type 1 Gaucher disease. The extension trial is registered at http://www.clinicaltrials.gov as NCT00391625.

Replacement therapy with imiglucerase for type 1 Gaucher's disease

Gauchers disease, the most common sphingolipidosis, is caused by deficiency of the lysosomal enzyme glucocerebrosidase. Therapy with alglucerase (the placental enzyme) is safe and effective at various dosing regimens. We report the use of low-dose imiglucerase (the recombinant enzyme) at two dosing schedules: 15 u/kg once fortnightly or 2.5 u/kg thrice weekly. Mean reductions in spleen and liver volumes achieved (in all ten patients) by imiglucerase at 12 months were 36.4% and 14.5%, respectively; mean increase in haemoglobin and platelet counts were 13.4% and 25.7%. There were no serious side-effects. No significant differences were observed between the two schedules. Low-dose low-frequency imiglucerase may be an alternative cost-effective approach with satisfactory clinical response and uncompromised quality of life.

Low-dose enzyme replacement therapy for Gaucher's disease: Effects of age, sex, genotype, and clinical features on response to treatment☆

Although alglucerase therapy has become the treatment of choice for symptomatic patients with Gauchers disease, the low-dose/high-frequency regimen introduced as a means to reduce the high cost of treatment has raised major controversy. We evaluated the efficacy and safety of low-dose alglucerase in 29 patients with Gauchers disease who completed 6 to 28 months of therapy. All received intravenous alglucerase at a monthly dose of 30 units/kg, given usually in equal doses 3 times a week. All patients responded well to treatment. The hematological improvement and the reduction in organomegaly were satisfactory. No correlation was found between age, sex, genotype, previous splenectomy, or severity score index and the response to treatment. Patients with a greater degree of hepatomegaly tended to have a more pronounced decrease in liver size, although this reduction did not reach statistical significance. We confirmed that a low-dose/high-frequency regimen of alglucerase was as effective as a high-dose/low-frequency protocol in the treatment of Gauchers disease, even in the severely ill. Whenever cost is an issue, we recommend using this low-dose regimen.

Echocardiographic assessment of pulmonary hypertension in Gaucher's disease

BACKGROUND Enzyme therapy has been shown to decrease the signs and symptoms of Gauchers disease. A few patients, however, develop pulmonary hypertension on such treatment. We investigated the frequency of pulmonary hypertension in Gauchers disease. METHODS We studied 134 adults with type 1 Gauchers disease, including 73 patients on enzyme replacement, with echocardiography. We measured tricuspid incompetence (TI) with continuous-wave doppler. Pulmonary hypertension was indicated by a TI gradient of more than 30 mm Hg. FINDINGS Nine (7%) patients had pulmonary hypertension: all were treated and six had undergone splenectomy. Chest radiographs confirmed the presence of pulmonary hypertension in these patients as well as in most patients with TI gradients of 25-29 mm Hg. INTERPRETATION The confounding effects of disease severity and splenectomy in many treated patients precluded definitive conclusion of cause and effect. Nonetheless, we found an unexpectedly high rate of pulmonary hypertension and recommended routine echocardiographic monitoring of all treated and untreated patients with type 1 Gauchers disease. We also suggest consideration of treatment withdrawal if the TI gradient progresses to more than 30 mm Hg.

Inhibition of substrate synthesis as a strategy for glycolipid lysosomal storage disease therapy.

The glycosphingolipid (GSL) lysosomal storage diseases are caused by mutations in the genes encoding the glycohydrolases that catabolize GSLs within lysosomes. In these diseases the substrate for the defective enzyme accumulates in the lysosome and the stored GSL leads to cellular dysfunction and disease. The diseases frequently have a progressive neurodegenerative course. The therapeutic options for treating these diseases are relatively limited, and for the majority there are no effective therapies. The problem is further compounded by difficulties in delivering therapeutic agents to the brain. Most research effort to date has focused on strategies for augmenting enzyme levels to compensate for the underlying defect. These include bone marrow transplantation (BMT), enzyme replacement and gene therapy. An alternative strategy that we have been exploring is substrate deprivation. This approach aims to balance the rate of GSL synthesis with the impaired rate of GSL breakdown. The imino sugar N-butyldeoxynojirimycin (NB-DNJ) inhibits the first step in GSL biosynthesis and has been used to evaluate this approach. Studies in an asymptomatic mouse model of Tay–Sachs disease have shown that substrate deprivation prevents GSL storage in the CNS. In a severe neurodegenerative mouse model of Sandhoff disease, substrate deprivation delayed the onset of symptoms and disease progression and significantly increased life expectancy. Combining NB-DNJ and BMT was found to be synergistic in the Sandhoff mouse model. A clinical trial in type I Gaucher disease has been undertaken and has shown beneficial effects. Efficacy was demonstrated on the basis of significant decreases in liver and spleen volumes, gradual but significant improvement in haematological parameters and disease activity markers, together with diminished GSL biosynthesis and storage as determined by independent biochemical assays. Further trials in type I Gaucher disease are in progress; studies are planned in patients with GSL storage in the CNS.

Pilot study using ambroxol as a pharmacological chaperone in type 1 Gaucher disease.

The purpose of this pilot was to assess the tolerability and efficacy of ambroxol as a pharmacological chaperone in patients with symptomatic, type 1 Gaucher disease who present with measurable disease parameters but are not receiving enzyme replacement therapy (ERT) in order to provide proof of concept and/or ascertain the suitability of ambroxol for a larger clinical trial. The Israeli Ministry of Health Form 29c was employed to prescribe ambroxol for off-label use. Twelve patients were dispensed 2 capsules of 75 mg of ambroxol daily for 6 months. There were 8 females (66.7%). Mean age at entry was 41.1 (range: 24-63) years. Mean body weight at entry was 66.4 (range: 46.5-100) kg. One patient withdrew because of a hypersensitivity reaction, one because of elective splenectomy. No patient experienced clinically relevant deterioration in disease parameters measured. One patient achieved a robust response relative to baseline: +16.2% hemoglobin; +32.9% platelets; -2.8% liver volume; and -14.4% spleen volume. Three patients, including the above one, elected to continue on ambroxol for a further 6 months: hemoglobin levels and liver volumes were relatively stable, but platelet counts further increased in the above patient (+52.6% from baseline) and spleen volumes decreased further in all three patients (-6.4%, -18.6%, and -23.4% from baseline). Thus, ambroxol may be a safe option for Gaucher disease patients with potential disease-specific efficacy and should be expanded into a clinical trial using higher doses and placebo-controlled design.