Gaucher Disease Clinical Trial
Official title:
A Study to Evaluate and Characterize the Effect of Pharmacological Chemicals on Blood From Patients With Gaucher Disease
Gaucher disease is a lysosomal storage disorder resulting from a deficiency in the key enzyme
b-glucocerebrosidase (GCase). This enzyme is responsible for breaking down a specialized type
of fat molecule, known as glucocerebroside, in the lysosome. The enzyme deficiency is caused
by genetic mutations which result in the production of misfolded GCase protein. The absent or
defective GCase enzyme activity leads to build-up of glucocerebroside inside certain cells.
Over time, these Gaucher cells can accumulate and may cause inflammation or damage to
specific areas within the body, including the liver, spleen, bone marrow, lung, and the
central nervous system.
AT2101 is designed to act as a pharmacological chaperone by selectively binding to the
misfolded GCase. After binding to the enzyme, it is thought that AT2101 promotes the proper
folding, processing, and trafficking of the enzyme from the endoplasmic reticulum to its
final destination, the lysosome, the area of the cell where the enzyme does its work. Once it
reaches the lysosome, the pharmacological chaperone is displaced and the enzyme can perform
its normal function, which is the breakdown of its natural substrate, glucocerebroside.
Several in vitro and in vivo preclinical studies have been conducted. In these studies AT2101
increased GCase enzyme level in cells derived from Gaucher disease patients with different
genetic mutations, including cells with a genetic mutation associated with the neurologic
form of Gaucher disease. In normal mice, oral administration of AT2101 resulted in a
dose-dependent increase in GCase level in the liver, spleen, brain, and lung.
This study is designed to evaluate the ex vivo response to pharmacological chaperone therapy
by testing blood samples from previously treated and untreated patients with Gaucher disease.
The study will include patients with non-neuropathic Gaucher disease (type I) and neuropathic
Gaucher disease (types II and/or III). Up to 50 patients will be enrolled at the NIH.
All subjects will participate in one study visit. Clinical information will be collected
retrospectively from medical records. Information collected will include Gaucher disease
diagnosis and history, medical history, family history, assessments of clinical severity, and
genotype. A blood sample will be collected and various cells will be isolated for laboratory
testing and research.
Gaucher disease (GD) is a rare lysosomal storage disorder caused by mutations in the gene
encoding acid-Beta-glucosidase (Beta-glucocerebrosidase [GCase]) (Gba), the lysosomal enzyme
that catalyzes the breakdown of the lipid glucosylceramide (glucosylcerebroside [GlcCer]).
The resulting deficiency in GCase activity leads to an intracellular accumulation of the
substrate GlcCer, primarily in macrophage cells. These lipid-laden macrophages, known as
Gaucher cells, are the hallmark of the disease and their accumulation in the liver, bone
marrow, and spleen elicits the clinical symptoms associated with GD.
Pharmacological chaperone therapy is a novel approach to treat diseases due to protein
misfolding/mistrafficking using small molecule ligands to rescue and increase the residual
function of mutant proteins. For lysosomal storage diseases in which the causative mutant
enzymes have residual activity, reversible inhibitors can act as pharmacological chaperones
that specifically bind, stabilize, and facilitate the proper folding and trafficking of the
mutant enzyme to the lysosome, thereby increasing its ability to degrade the accumulated
substrate.
AT2101 (isofagomine [IFG] tartrate) is an iminosugar that functions as a selective
pharmacological chaperone of GCase that is less stably folded as a result of missense
mutations. Current data suggest that AT2101 may work by stabilizing mutant GCase in the
endoplasmic reticulum and promoting trafficking of the enzyme to the lysosome. In the
lysosome, when the pharmacological chaperone is displaced, the enzyme can perform its normal
function, which is the breakdown of glucocerebroside.
This study is designed primarily to evaluate and characterize the effects of AT2101 on
(GCase) activity and other markers of disease in lymphoblast and macrophage cell lines
derived from patients with GD. Fifty subjects with a confirmed diagnosis of GD and a known
Gba genotype will be enrolled in the trial.
The study will consist of one study visit. Clinical information will be collected
retrospectively. Collected information will include but not be limited to GD diagnosis,
medical history, family history, assessments of clinical severity and genotype. Blood samples
for a series of ex vivo assays will be collected. Blood cell lines will be derived from the
subjects' blood samples and used for the ex vivo assays, which will be conducted at a central
laboratory.
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