Pulmonary alveolar proteinosis

Pulmonary alveolar proteinosis (PAP) is a rare lung disorder characterized by an abnormal accumulation of surfactant-derived lipoprotein compounds within the alveoli of the lung. The accumulated substances interfere with the normal gas exchange and expansion of the lungs, ultimately leading to difficulty breathing and a predisposition to developing lung infections. The causes of PAP may be grouped into primary and secondary causes, although the most common cause is a primary autoimmune condition. Pulmonary alveolar proteinosis (PAP) is a rare lung disorder characterized by an abnormal accumulation of surfactant-derived lipoprotein compounds within the alveoli of the lung. The accumulated substances interfere with the normal gas exchange and expansion of the lungs, ultimately leading to difficulty breathing and a predisposition to developing lung infections. The causes of PAP may be grouped into primary and secondary causes, although the most common cause is a primary autoimmune condition. The signs and symptoms of PAP include shortness of breath, a cough, low grade fever, and weight loss. The clinical course of PAP is unpredictable. Spontaneous remission is recognized, and some patients have stable symptoms. Death may occur due to the progression of PAP or of any underlying associated disease. Individuals with PAP are more vulnerable to lung infections such as bacterial pneumonia, mycobacterium avium-intracellulare infection, or a fungal infection. The abnormal accumulation of lipoproteinaceous compounds in PAP is due to impaired surfactant regulation and clearance. This is usually related to impaired alveolar macrophage function. In adults, the most common cause of PAP is an autoimmunity to granulocyte-macrophage colony stimulating factor (GM-CSF), a critical factor in development of alveolar macrophages. Decreased bioavailability of GM-CSF results in poor alveolar macrophages development and function, which results in accumulation of surfactant and related products. Secondary causes of PAP are those in which the accumulation of lipoproteinaceous compounds is secondary to another disease process. This has been recognized in the settings of certain cancers (such as myeloid leukemia), lung infections, or environmental exposure to dusts or chemicals. Although the cause of PAP was not originally understood, a major breakthrough in the understanding of the cause of the disease came by the chance observation that mice bred for experimental study to lack a hematologic growth factor known as granulocyte-macrophage colony stimulating factor (GM-CSF) developed a pulmonary syndrome of abnormal surfactant accumulation resembling human PAP. The implications of this finding are still being explored, but significant progress was reported in February 2007. Researchers in that report discussed the presence of anti-GM-CSF autoantibodies in patients with PAP, and duplicated that syndrome with the infusion of these autoantibodies into mice. Familial or sporadic inactivating mutations in one of the two parental GATA2 genes produces an autosomal dominant disorder termed GATA2 deficiency. The GATA2 gene produces the GATA2 transcription factor which is critical for the embryonic development, maintenance, and functionality of blood-forming, lympathic-forming, and other tissue-forming cells. Individuals with a single GATA2 inactivating mutation present with a wide range of disorders including pulmonary alveolar proteinosis. GATA2 mutation-based pulmonary alveolar proteinosis is associated with normal levels of GM-CSF and commonly improves or is avoided in afflicted individuals who successfully receive a hematopoietic stem cell transplantation.