Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0034067 (emphysema)
11,506 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homozygous PIZZ alpha 1-antitrypsin deficiency, which has an incident of 1 in 1600 to 1 in 2000 live births, is the most common genetic cause of liver disease in children. It is also associated with chronic liver disease and hepatocellular carcinoma in adults. It is a well-known cause of pulmonary emphysema. Although emphysema is due to uninhibited proteolytic destruction of the connective tissue backbone of the lung, liver disease is thought to result from the toxic effects of the mutant alpha 1AT molecule retained within the endoplasmic reticulum of liver cells. Screening studies done by Sveger in Sweden have shown that only 10 to 15% of the PIZZ population develop clinically significant liver disease over the first 20 years of life. Recent studies have suggested that a subgroup of PIZZ individuals are predisposed to liver injury because of an inefficient degradation of mutant alpha 1ATZ within the endoplasmic reticulum. Altered migration of the abnormal alpha 1ATZ molecule in isoelectric focussing gels is the basis of the diagnosis of alpha 1AT deficiency. Treatment of alpha 1AT deficiency-associated liver disease is mostly supportive. Liver replacement therapy has been used successfully for severe liver injury. An increasing number of patients with severe emphysema have undergone lung transplantation.
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PMID:Alpha-1-antitrypsin deficiency. 977 22

Proteinase-antiproteinase imbalances are recognized in several diseases including the two most common lethal hereditary disorders of white populations, alpha(1)-antitrypsin (alpha(1)-AT) deficiency and cystic fibrosis (CF). In alpha(1)-AT deficiency, the type Z variant of alpha(1)-AT forms polymers in the endoplasmic reticulum of hepatocytes resulting in liver disease in childhood. The block in alpha(1)-AT processing in hepatocytes significantly reduces levels of circulating alpha(1)-AT. This may lead in young adults to panacinar emphysema due to insufficient protection of the lower respiratory tract from neutrophil elastase, permitting progressive destruction of the alveoli. In CF, chronic bacterial lung infections due to impaired mucociliary clearance lead to a vigorous influx of neutrophils in the airways. Released levels of neutrophil serine proteinases, particularly elastase, exceed the antiproteinase capacity of endogenous serine proteinase inhibitors in the airways. Progressive proteolytic impairment of multiple defense pathways in addition to endobronchial obstruction and airway wall destruction are thought to be responsible for the reduced life expectancy in CF patients. Strategies to augment the antiproteinase defenses in the airways of patients with severe alpha(1)-AT deficiency or CF include the intravenous or aerosol administration of serine proteinase inhibitors. Studies in both patient groups using plasma-derived or transgenic alpha(1)-AT, recombinant secretory leukoprotease inhibitor or synthetic elastase inhibitors show promising results concerning drug safety and efficacy.
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PMID:Serine proteinase inhibitor therapy in alpha(1)-antitrypsin inhibitor deficiency and cystic fibrosis. 1053 68

It is now well known that the addition and trimming of oligosaccharide side chains during post-translational modification play an important role in determining the fate of secretory, membrane, and lysosomal glycoproteins. Recent studies have suggested that trimming of oligosaccharide side chains also plays a role in the degradation of misfolded glycoproteins as a part of the quality control mechanism of the endoplasmic reticulum (ER). In this study, we examined the effect of several inhibitors of carbohydrate processing on the fate of the misfolded secretory protein alpha1 antitrypsin Z. Retention of this misfolded glycoprotein in the ER of liver cells in the classical form of alpha1 antitrypsin (alpha1-AT) deficiency is associated with severe liver injury and hepatocellular carcinoma and lack of its secretion is associated with destructive lung disease/emphysema. The results show marked alterations in the fate of alpha1 antitrypsin Z (alpha1-ATZ). Indeed, one glucosidase inhibitor, castanospermine (CST), and two mannosidase inhibitors, kifunensine (KIF) and deoxymannojirimycin (DMJ), mediate marked increases in secretion of alpha1-ATZ by distinct mechanisms. The effects of these inhibitors on secretion have interesting implications for our understanding of the quality control apparatus of the ER. These inhibitors may also constitute models for development of additional drugs for chemoprophylaxis of liver injury and emphysema in patients with alpha1-AT deficiency.
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PMID:Glucosidase and mannosidase inhibitors mediate increased secretion of mutant alpha1 antitrypsin Z. 1063 1

In alpha1-AT deficiency, a misfolded but functionally active mutant alpha1-ATZ (alpha1-ATZ) molecule is retained in the endoplasmic reticulum of liver cells rather than secreted into the blood and body fluids. Emphysema is thought to be caused by the lack of circulating alpha1-AT to inhibit neutrophil elastase in the lung. Liver injury is thought to be caused by the hepatotoxic effects of the retained alpha1-ATZ. In this study, we show that several "chemical chaperones," which have been shown to reverse the cellular mislocalization or misfolding of other mutant plasma membrane, nuclear, and cytoplasmic proteins, mediate increased secretion of alpha1-ATZ. In particular, 4-phenylbutyric acid (PBA) mediated a marked increase in secretion of functionally active alpha1-ATZ in a model cell culture system. Moreover, oral administration of PBA was well tolerated by PiZ mice (transgenic for the human alpha1-ATZ gene) and consistently mediated an increase in blood levels of human alpha1-AT reaching 20-50% of the levels present in PiM mice and normal humans. Because clinical studies have suggested that only partial correction is needed for prevention of both liver and lung injury in alpha1-AT deficiency and PBA has been used safely in humans, it constitutes an excellent candidate for chemoprophylaxis of target organ injury in alpha1-AT deficiency.
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PMID:Chemical chaperones mediate increased secretion of mutant alpha 1-antitrypsin (alpha 1-AT) Z: A potential pharmacological strategy for prevention of liver injury and emphysema in alpha 1-AT deficiency. 1067 36

Alpha 1-antitrypsin deficiency is the most common genetic cause of liver disease in children. It is also associated with chronic liver disease, hepatocellular carcinoma, and pulmonary emphysema in adults. Liver injury is caused by hepatotoxic effects of retention of the mutant alpha 1-antitrypsin molecule within the endoplasmic reticulum of liver cells, and emphysema is caused by uninhibited proteolytic damage to elastic tissue in the lung parenchyma. Recent studies of the biochemistry and cell biology of the mutant alpha 1-antitrypsin molecule have led to advances in understanding susceptibility to liver injury and in developing new strategies for prevention of both liver and lung disease.
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PMID:Liver injury in alpha 1-antitrypsin deficiency. 1123 97

The endoplasmic reticulum (ER) is a subcellular compartment specialized in folding and assembly of newly synthesized polypeptides. The polypeptides expressed in the ER include all secretory proteins produced in the cell, lumenal or membrane-bound proteins of the endocytic/vacuolar and secretory compartments and transmembrane proteins that operate at the plasma membrane. In the lumen of the ER, molecular chaperones and folding factors facilitate the maturation of newly synthesized proteins. In a process defined as ER-quality control, they also warrant that only properly structured and assembled products leave the ER and are transported to their target organelles and compartments. If proper maturation fails, the aberrant products are degraded. Quality control in the ER is essential to prevent exit of improperly regulated or not-functional products that could lead to harmful effects. The mechanisms of protein folding and quality control in the ER are far from being fully understood. They are fundamental for the life of cells and organisms, but they are also linked to important human hereditary diseases in which mutated gene products are retained in the ER and degraded (e.g., cystic fibrosis and hereditary lung emphysema).
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PMID:Folding of viral glycoproteins in the endoplasmic reticulum. 1188 55

alpha(1)-Antitrypsin is a member of the serine proteinase inhibitor (serpin) superfamily and a potent inhibitor of neutrophil elastase. The most important deficiency variant of alpha(1)-antitrypsin arises from the Z mutation (Glu342Lys). This mutation perturbs the protein's tertiary structure to promote a precise, sequential intermolecular linkage that results in polymer formation. These polymers accumulate within the endoplasmic reticulum of the hepatocyte forming inclusion bodies that are associated with neonatal hepatitis, juvenile cirrhosis and adult hepatocellular carcinoma. The resultant secretory defect leads to plasma deficiency of alpha(1)-antitrypsin. This exposes lung tissue to uncontrolled proteolytic attack from neutrophil elastase, culminating in alveolar destruction. Thus, the Z alpha(1)-antitrypsin homozygote is predisposed to developing early onset basal, panacinar emphysema. In this review, we summarise the current understanding of the pathobiology of alpha(1)-antitrypsin deficiency and the associated liver cirrhosis and emphysema. We show how this knowledge has led to the development of novel therapeutic approaches to treat this condition.
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PMID:Alpha(1)-antitrypsin deficiency, liver disease and emphysema. 1267 69

Members of the serine proteinase inhibitor or serpin superfamily inhibit their target proteinases by a remarkable conformational transition that involves the enzyme being translocated more than 70 A (1 A = 10(-10) m) from the upper to the lower pole of the inhibitor. This elegant mechanism is subverted by point mutations to form ordered polymers that are retained within the endoplasmic reticulum of secretory cells. The accumulation of polymers underlies the retention of mutants of alpha(1)-antitrypsin and neuroserpin within hepatocytes and neurons to cause cirrhosis and dementia respectively. The formation of polymers results in the failure to secrete mutants of other members of the serpin superfamily: antithrombin, C1 inhibitor and alpha1-antichymotrypsin, to cause a plasma deficiency that results in the clinical syndromes of thrombosis, angio-oedema and emphysema respectively. Understanding the common mechanism underlying the retention and deficiency of mutants of the serpins has allowed us to group these conditions as the serpinopathies. We review in this paper the molecular and structural basis of the serpinopathies and show how this has allowed the development of specific agents to block the polymerization that underlies disease.
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PMID:Molecular mousetraps and the serpinopathies. 1578 98

The klotho gene was identified in 1997 as the gene whose severe insufficiency (kl/kl) causes a syndrome resembling human aging, such as osteoporosis, arteriosclerosis, gonadal atrophy, emphysema, and short life span in a mouse strain. Regarding the gait disturbance reported in kl/kl mice, the present study examined the spinal cord of kl/kl mice, and revealed decreases in the number of large anterior horn cells (AHCs), the amount of cytoplasmic RNA, the number of ribosomes and rough endoplasmic reticulum (rER), and the activity of ribosomal (r) RNA gene transcription without significant loss of the total number of neurons in the ventral gray matter. Increased immunostaining of phosphorylated neurofilament in the AHCs and of glial fibrillary acidic protein in reactive astrocytes in the anterior horn of kl/kl mice were also observed. On the other hand, the posterior horn was quite well preserved. The results suggest that the kl/kl insufficiency causes atrophy and dysfunction of the spinal AHCs through decreased activity of rRNA gene transcription, which may reduce the amount of cytoplasmic RNA and the number of ribosomes and rER. These findings resemble those found in the spinal cord of patients with classic amyotrophic lateral sclerosis (ALS). The results show that klotho gene insufficiency causes dysfunction of the protein synthesizing system in the AHCs, and might indicate the klotho gene is involved in the pathological mechanism of classic ALS. The kl/kl is a new animal model of AHC degeneration, and may provide clues to understanding the etiology of classic ALS.
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PMID:Klotho insufficiency causes decrease of ribosomal RNA gene transcription activity, cytoplasmic RNA and rough ER in the spinal anterior horn cells. 1583 32

The endoplasmic reticulum (ER), the first secretory compartment of eukaryotic cells, co-ordinates the biogenesis and export of all membrane-bound and soluble cargo molecules to the cell surface. ER function is now recognised to have unprecedented links with signalling pathways regulating cell growth and differentiation and host physiology. Misfolding and aggregation of newly synthesised proteins in the ER or alterations in ER processing of cargo mediated by pathogens is responsible for a broad range of diseases including cystic fibrosis, emphysema and neuropathies such as Alzheimer's disease. The central, integrative role of the ER in determining cell physiology in health and disease represents an untapped area for pharmacological intervention. This review focuses on the potential use of pharmacological agents to modulate cargo selection, folding and degradation in the ER with the goal of alleviating ER export disease. In addition, implementation of novel technologies that utilise normal ER function to store and release biologically active substances of therapeutic relevance are presented as a new frontier in drug delivery.
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PMID:A new frontier in pharmacology: the endoplasmic reticulum as a regulated export pathway in health and disease. 1599 74


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