Gaucher disease (NORD)

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Gaucher disease (NORD)

Modulo 3 BPT

Modulo 3 BPT

Nuclear structure
DNA structure
Transcription of DNA
Translation of mRNA
Gene regulation
Epigenetics
Amino acids and protein folding
Protein structure and synthesis
Nucleotide metabolism
DNA replication
Lac operon
DNA damage and repair
Cell cycle
Mitosis and meiosis
DNA mutations
Lesch-Nyhan syndrome
Orotic aciduria
Adenosine deaminase deficiency
Xeroderma pigmentosum
Li-Fraumeni syndrome
Bloom syndrome
Fanconi anemia
McCune-Albright syndrome
Acute radiation syndrome
Purine and pyrimidine synthesis and metabolism disorders: Pathology review
Polymerase chain reaction (PCR) and reverse-transcriptase PCR (RT-PCR)
Gel electrophoresis and genetic testing
ELISA (Enzyme-linked immunosorbent assay)
Karyotyping
DNA cloning
Fluorescence in situ hybridization
Mendelian genetics and punnett squares
Hardy-Weinberg equilibrium
Inheritance patterns
Independent assortment of genes and linkage
Evolution and natural selection
Down syndrome (Trisomy 21)
Edwards syndrome (Trisomy 18)
Patau syndrome (Trisomy 13)
Fragile X syndrome
Huntington disease
Myotonic dystrophy
Friedreich ataxia
Turner syndrome
Klinefelter syndrome
Prader-Willi syndrome
Angelman syndrome
Beckwith-Wiedemann syndrome
Cri du chat syndrome
Williams syndrome
Alagille syndrome (NORD)
Achondroplasia
Polycystic kidney disease
Familial adenomatous polyposis
Familial hypercholesterolemia
Hereditary spherocytosis
Marfan syndrome
Multiple endocrine neoplasia
Neurofibromatosis
Tuberous sclerosis
von Hippel-Lindau disease
Albinism
Cystic fibrosis
Gaucher disease (NORD)
Glycogen storage disease type I
Glycogen storage disease type II (NORD)
Glycogen storage disease type III
Glycogen storage disease type IV
Glycogen storage disease type V
Hemochromatosis
Mucopolysaccharide storage disease type 1 (Hurler syndrome) (NORD)
Krabbe disease
Leukodystrophy
Niemann-Pick disease types A and B (NORD)
Niemann-Pick disease type C
Primary ciliary dyskinesia
Phenylketonuria (NORD)
Sickle cell disease (NORD)
Tay-Sachs disease (NORD)
Alpha-thalassemia
Beta-thalassemia
Wilson disease
Alport syndrome
X-linked agammaglobulinemia
Fabry disease (NORD)
Glucose-6-phosphate dehydrogenase (G6PD) deficiency
Hemophilia
Mucopolysaccharide storage disease type 2 (Hunter syndrome) (NORD)
Muscular dystrophy
Ornithine transcarbamylase deficiency
Wiskott-Aldrich syndrome
Mitochondrial myopathy
Autosomal trisomies: Pathology review
Muscular dystrophies and mitochondrial myopathies: Pathology review
Miscellaneous genetic disorders: Pathology review
Blood histology
Blood components
Erythropoietin
Blood groups and transfusions
Platelet plug formation (primary hemostasis)
Coagulation (secondary hemostasis)
Role of Vitamin K in coagulation
Clot retraction and fibrinolysis
Iron deficiency anemia
Sideroblastic anemia
Anemia of chronic disease
Lead poisoning
Hemolytic disease of the newborn
Autoimmune hemolytic anemia
Pyruvate kinase deficiency
Paroxysmal nocturnal hemoglobinuria
Aplastic anemia
Megaloblastic anemia
Folate (Vitamin B9) deficiency
Vitamin B12 deficiency
Diamond-Blackfan anemia
Acute intermittent porphyria
Porphyria cutanea tarda
Vitamin K deficiency
Bernard-Soulier syndrome
Glanzmann's thrombasthenia
Hemolytic-uremic syndrome
Immune thrombocytopenia
Thrombotic thrombocytopenic purpura
Von Willebrand disease
Disseminated intravascular coagulation
Heparin-induced thrombocytopenia
Antithrombin III deficiency
Factor V Leiden
Protein C deficiency
Protein S deficiency
Antiphospholipid syndrome
Hodgkin lymphoma
Non-Hodgkin lymphoma
Chronic leukemia
Acute leukemia
Myelodysplastic syndromes
Polycythemia vera (NORD)
Myelofibrosis (NORD)
Essential thrombocythemia (NORD)
Langerhans cell histiocytosis
Mastocytosis (NORD)
Microcytic anemia: Pathology review
Non-hemolytic normocytic anemia: Pathology review
Intrinsic hemolytic normocytic anemia: Pathology review
Extrinsic hemolytic normocytic anemia: Pathology review
Macrocytic anemia: Pathology review
Heme synthesis disorders: Pathology review
Coagulation disorders: Pathology review
Platelet disorders: Pathology review
Mixed platelet and coagulation disorders: Pathology review
Thrombosis syndromes (hypercoagulability): Pathology review
Lymphomas: Pathology review
Leukemias: Pathology review
Plasma cell disorders: Pathology review
Myeloproliferative disorders: Pathology review
Ribonucleotide reductase inhibitors
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Antimetabolites for cancer treatment
Prostate cancer
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Endometrial cancer
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Disorders of sex chromosomes: Pathology review
Testicular tumors: Pathology review
Ovarian cysts and tumors: Pathology review
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Colorectal cancer
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Irritable bowel syndrome
Colorectal polyps and cancer: Pathology review
Seizures and epilepsy
Dementia: Pathology review
Movement disorders: Pathology review
Demyelinating disorders: Pathology review
Neuromuscular junction disorders: Pathology review
Adult brain tumors: Pathology review
Inflammatory bowel disease: Pathology review
Bowel obstruction

Transcript

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Content Reviewers

Rishi Desai, MD, MPH,Viviana Popa, MD

Gaucher disease is an inherited condition characterized by insufficient levels of the enzyme glucocerebrosidase, also called beta-glucosidase.

It’s named for the French physician, Philippe Gaucher, who first described the condition.

Glucocerebroside is a glycolipid, which is a molecule containing both sugar and fat, that's included in the membrane of many different cells.

Glucocerebroside is formed through a set of reactions in the cell that require enzymes.

Once the glucocerebroside is made it becomes a part of various cells and when these cells become old or damaged, they are often engulfed, or eaten, by immune cells called macrophages.

Macrophages contain lysosomes, which are organelles that act as the cells’ digestive center. Inside lysosomes, large, potentially harmful substances are broken down, to be either discharged or reused by the body.

One example is glucocerebroside which is broken down by the enzyme glucocerebrosidase, or GBA, which is a product of the GBA gene.

In Gaucher disease, the GBA gene is faulty, meaning it has a mutation that leads to a reduction in the level or activity of glucocerebrosidase.

Hence, glucocerebroside can’t be broken down and it accumulates inside the lysosomes of macrophages.

So under a microscope, macrophages have a characteristic lipid-laden, or “fatty” appearance, similar to “crumpled tissue-paper.”

These transformed macrophages are called Gaucher cells, and they accumulate in multiple organs and tissues, including the bone marrow, liver, and spleen.

While the reason is unclear, Gaucher cells and other nearby macrophages secrete damaging lysosomal enzymes and inflammatory signals into the surrounding area.

This causes an immune response and production of scar tissue, resulting in many characteristic signs and symptoms.

GBA gene mutations are inherited in an autosomal recessive manner.

There are a few subtypes of Gaucher disease. In type 1, some individuals are asymptomatic, but when there are signs and symptoms they can be due to bone marrow fibrosis, which causes reduced production of red blood cells, resulting in anemia and associated fatigue.

Rarely, white blood cells are also affected, causing leukopenia.

There can also be bone infarctions, caused by reduced blood flow to part of a bone, can lead to a painful “bone crisis”, and result in physical deformity and avascular necrosis, or death of bone tissue. Osteoporosis, or low bone density, is another manifestation.

Key Takeaways

Gaucher disease (GD) is a rare, inherited disorder that affects the body's ability to break down glucocerebroside molecules, because there is a lack of an enzyme called glucocerebrosidase that normally breaks down this molecule. This results in the accumulation of glucocerebrosidase in the lysosomes of macrophages, and other tissues, in different parts of the body.

There are three major types of Gaucher disease, depending on which tissues are most affected. In type 1 Gaucher disease, bone marrow cells are the most affected, which can lead to bone marrow fibrosis and anemia, and hepatosplenomegaly. In type 2 Gaucher disease, neurons in the brain are damaged and symptoms progress rapidly, resulting in death within the first few years. Finally, type 3 Gaucher disease is like type 2, but the symptoms develop at a slower rate.