Jeffrey Teckman scite author profile

Although there is evidence for specific subcellular morphological alterations in response to accumulation of misfolded proteins in the endoplasmic reticulum (ER), it is not clear whether these morphological changes are stereotypical or if they depend on the specific misfolded protein retained. This issue may be particularly important for mutant secretory protein alpha(1)-antitrypsin (alpha(1)AT) Z because retention of this mutant protein in the ER can cause severe target organ injury, the chronic hepatitis/hepatocellular carcinoma associated with alpha(1)AT deficiency. Here we examined the morphological changes that occur in human fibroblasts engineered for expression and ER retention of mutant alpha(1)ATZ and in human liver from three alpha(1)AT-deficient patients. In addition to marked expansion and dilatation of ER, there was an intense autophagic response. Mutant alpha(1)ATZ molecules were detected in autophagosomes by immune electron microscopy, and intracellular degradation of alpha(1)ATZ was partially reduced by chemical inhibitors of autophagy. In contrast to mutant CFTRDeltaF508, expression of mutant alpha(1)ATZ in heterologous cells did not result in the formation of aggresomes. These results show that ER retention of mutant alpha(1)ATZ is associated with a marked autophagic response and raise the possibility that autophagy represents a mechanism by which liver of alpha(1)AT-deficient patients attempts to protect itself from injury and carcinogenesis.

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Degradation of a Mutant Secretory Protein, α1-Antitrypsin Z, in the Endoplasmic Reticulum Requires Proteasome Activity

Teckman

Ōmura

et al. 1996

Journal of Biological Chemistry

346

236

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Degradation of proteins that are retained in the quality control apparatus of the endoplasmic reticulum (ER) has been attributed to a third proteolytic system, distinct from the lysosomal and the cytoplasmic ubiquitindependent proteosomal proteolytic pathways. However, several recent studies have shown that ER degradation of a mutant membrane protein, CFTR⌬F508, is at least in part mediated from the cytoplasmic side by the 26 S proteasome. In this study, we examined the possibility that ER degradation of mutant secretory protein ␣ 1 -antitrypsin (␣ 1 -AT) Z, the mutant protein associated with infantile liver disease and adult-onset emphysema of ␣ 1 -AT deficiency, is mediated by the proteasome. The results show that a specific proteasome inhibitor, lactacystin, inhibits ER degradation of ␣1-ATZ in transfected human fibroblast cell lines and in a cell-free microsomal translocation system. Although it is relatively easy to conceptualize how a transmembrane protein like CFTR⌬F508 might be accessible on the cytoplasmic aspect of the ER membrane for ubiquitination and degradation by the proteasome, it is more difficult to conceptualize how this might occur for a luminal polypeptide. The results show that, once within the lumen of the ER, ␣ 1 -ATZ interacts with the transmembrane molecular chaperone calnexin and specifically induces the polyubiquitination of calnexin. The results, therefore, provide evidence that the proteasome, from its cytoplasmic localization, induces the degradation of the luminal ␣ 1 -ATZ molecule by first attacking the cytoplasmic tail of calnexin molecules that are associated with ␣ 1 -ATZ.

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α1-Antitrypsin deficiency

Greene

Marciniak

Teckman

et al. 2016

Nat Rev Dis Primers

241

204

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α1-Antitrypsin deficiency (A1ATD) is an inherited disorder caused by mutations in SERPINA1, leading to liver and lung disease. It is not a rare disorder but frequently goes underdiagnosed or misdiagnosed as asthma, chronic obstructive pulmonary disease (COPD) or cryptogenic liver disease. The most frequent disease-associated mutations include the S allele and the Z allele of SERPINA1, which lead to the accumulation of misfolded α1-antitrypsin in hepatocytes, endoplasmic reticulum stress, low circulating levels of α1-antitrypsin and liver disease. Currently, there is no cure for severe liver disease and the only management option is liver transplantation when liver failure is life-threatening. A1ATD-associated lung disease predominately occurs in adults and is caused principally by inadequate protease inhibition. Treatment of A1ATD-associated lung disease includes standard therapies that are also used for the treatment of COPD, in addition to the use of augmentation therapy (that is, infusions of human plasma-derived, purified α1-antitrypsin). New therapies that target the misfolded α1-antitrypsin or attempt to correct the underlying genetic mutation are currently under development.

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A Novel Monoclonal Antibody to Characterize Pathogenic Polymers in Liver Disease Associated with α1-Antitrypsin Deficiency†

et al. 2010

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Alpha 1 -antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency allele (Glu342Lys) causes the protein to undergo a conformational transition and form ordered polymers that are retained within hepatocytes. This causes neonatal hepatitis, cirrhosis, and hepatocellular carcinoma. We have developed a conformation-specific monoclonal antibody (2C1) that recognizes the pathological polymers formed by a 1 -antitrypsin. This antibody was used to characterize the Z variant and a novel shutter domain mutant (His334Asp; a 1 -antitrypsin King's) identified in a 6-week-old boy who presented with prolonged jaundice. His334Asp a 1 -antitrypsin rapidly forms polymers that accumulate within the endoplasmic reticulum and show delayed secretion when compared to the wild-type M a 1 -antitrypsin. The 2C1 antibody recognizes polymers formed by Z and His334Asp a 1 -antitrypsin despite the mutations directing their effects on different parts of the protein. This antibody also recognized polymers formed by the Siiyama (Ser53Phe) and Brescia (Gly225Arg) mutants, which also mediate their effects on the shutter region of a 1 -antitrypsin. Conclusion: Z and shutter domain mutants of a 1 -antitrypsin form polymers with a shared epitope and so are likely to have a similar structure. (HEPATOLOGY 2010;52:1078-1088 T he serpinopathies are conformational diseases characterized by the polymerization and intracellular retention of members of the serine protease inhibitor or serpin superfamily of proteins.1 The best known is a 1 -antitrypsin deficiency, with the most common severe deficiency allele being the Z mutation (Glu342Lys). This mutation results in the retention of ordered polymers of a 1 -antitrypsin as periodic acid Schiff positive inclusion bodies within the endoplasmic reticulum (ER) of hepatocytes.2 These inclusions predispose the individual homozygous for the Z variant of the a 1 -antitrypsin protease inhibitor (PI*Z) to neonatal hepatitis, cirrhosis, and rarely, hepatocellular carcinoma.3 Deficiency of circulating a 1 -antitrypsin results in early onset panlobular emphysema.

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The Diagnosis and Management of Alpha-1 Antitrypsin Deficiency in the Adult

et al. 2016

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Jeffrey Teckman

Retention of mutant α₁-antitrypsin Z in endoplasmic reticulum is associated with an autophagic response

Degradation of a Mutant Secretory Protein, α1-Antitrypsin Z, in the Endoplasmic Reticulum Requires Proteasome Activity

α1-Antitrypsin deficiency

A Novel Monoclonal Antibody to Characterize Pathogenic Polymers in Liver Disease Associated with α1-Antitrypsin Deficiency†

The Diagnosis and Management of Alpha-1 Antitrypsin Deficiency in the Adult

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Jeffrey Teckman

Retention of mutant α1-antitrypsin Z in endoplasmic reticulum is associated with an autophagic response

Degradation of a Mutant Secretory Protein, α1-Antitrypsin Z, in the Endoplasmic Reticulum Requires Proteasome Activity

α1-Antitrypsin deficiency

A Novel Monoclonal Antibody to Characterize Pathogenic Polymers in Liver Disease Associated with α1-Antitrypsin Deficiency†

The Diagnosis and Management of Alpha-1 Antitrypsin Deficiency in the Adult

Contact Info

Product

Resources

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Retention of mutant α₁-antitrypsin Z in endoplasmic reticulum is associated with an autophagic response