Your search keyword '"p62 isoforms"' showing total 3 results

1. Different Roles of p62 (SQSTM1) Isoforms in Keratin-Related Protein Aggregation

Author

Meghana Somlapura, Benjamin Gottschalk, Pooja Lahiri, Iris Kufferath, Daniela Pabst, Thomas Rülicke, Wolfgang F. Graier, Helmut Denk, and Kurt Zatloukal

Subjects

p62 isoforms, keratins, protein aggregation, protein aggregation diseases, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

p62/Sequestosome-1 (p62) is a multifunctional adaptor protein and is also a constant component of disease-associated protein aggregates, including Mallory–Denk bodies (MDBs), in steatohepatitis and hepatocellular carcinoma. We investigated the interaction of the two human p62 isoforms, p62-H1 (full-length isoform) and p62-H2 (partly devoid of PB1 domain), with keratins 8 and 18, the major components of MDBs. In human liver, p62-H2 is expressed two-fold higher compared to p62-H1 at the mRNA level and is present in slightly but not significantly higher concentrations at the protein level. Co-transfection studies in CHO-K1 cells, PLC/PRF/5 cells as well as p62− total-knockout and wild-type mouse fibroblasts revealed marked differences in the cytoplasmic distribution and aggregation behavior of the two p62 isoforms. Transfection-induced overexpression of p62-H2 generated large cytoplasmic aggregates in PLC/PRF/5 and CHO-K1 cells that mostly co-localized with transfected keratins resembling MDBs or (transfection without keratins) intracytoplasmic hyaline bodies. In fibroblasts, however, transfected p62-H2 was predominantly diffusely distributed in the cytoplasm. Aggregation of p62-H2 and p62ΔSH2 as well as the interaction with K8 (but not with K18) involves acquisition of cross-β-sheet conformation as revealed by staining with luminescent conjugated oligothiophenes. These results indicate the importance of considering p62 isoforms in protein aggregation disease.

Published

2021

2. Different Roles of p62 (SQSTM1) Isoforms in Keratin-Related Protein Aggregation

Author

Benjamin Gottschalk, Helmut Denk, Meghana Somlapura, Thomas Rülicke, Pooja Lahiri, Daniela Pabst, Wolfgang F. Graier, Iris Kufferath, and Kurt Zatloukal

Subjects

Gene isoform, QH301-705.5, CHO Cells, Protein aggregation, Article, Catalysis, protein aggregation, Inorganic Chemistry, Mice, Protein Aggregates, Cricetulus, Sequestosome-1 Protein, Keratin, Animals, Humans, Protein Isoforms, Biology (General), Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Spectroscopy, Hyaline, Mice, Knockout, chemistry.chemical_classification, Chemistry, Organic Chemistry, Signal transducing adaptor protein, General Medicine, Transfection, protein aggregation diseases, Computer Science Applications, Cell biology, Staining, Cytoplasm, p62 isoforms, keratins

Abstract

p62/Sequestosome-1 (p62) is a multifunctional adaptor protein and is also a constant component of disease-associated protein aggregates, including Mallory–Denk bodies (MDBs), in steatohepatitis and hepatocellular carcinoma. We investigated the interaction of the two human p62 isoforms, p62-H1 (full-length isoform) and p62-H2 (partly devoid of PB1 domain), with keratins 8 and 18, the major components of MDBs. In human liver, p62-H2 is expressed two-fold higher compared to p62-H1 at the mRNA level and is present in slightly but not significantly higher concentrations at the protein level. Co-transfection studies in CHO-K1 cells, PLC/PRF/5 cells as well as p62− total-knockout and wild-type mouse fibroblasts revealed marked differences in the cytoplasmic distribution and aggregation behavior of the two p62 isoforms. Transfection-induced overexpression of p62-H2 generated large cytoplasmic aggregates in PLC/PRF/5 and CHO-K1 cells that mostly co-localized with transfected keratins resembling MDBs or (transfection without keratins) intracytoplasmic hyaline bodies. In fibroblasts, however, transfected p62-H2 was predominantly diffusely distributed in the cytoplasm. Aggregation of p62-H2 and p62ΔSH2 as well as the interaction with K8 (but not with K18) involves acquisition of cross-β-sheet conformation as revealed by staining with luminescent conjugated oligothiophenes. These results indicate the importance of considering p62 isoforms in protein aggregation disease.

Published

2021

3. Different Roles of p62 (SQSTM1) Isoforms in Keratin-Related Protein Aggregation.

Author

Somlapura, Meghana, Gottschalk, Benjamin, Lahiri, Pooja, Kufferath, Iris, Pabst, Daniela, Rülicke, Thomas, Graier, Wolfgang F., Denk, Helmut, and Zatloukal, Kurt

Subjects

*KERATIN, *ADAPTOR proteins, *PROTEINS, *HEPATOCELLULAR carcinoma, *OLIGOTHIOPHENES, *SOCIAL interaction

Abstract

p62/Sequestosome-1 (p62) is a multifunctional adaptor protein and is also a constant component of disease-associated protein aggregates, including Mallory–Denk bodies (MDBs), in steatohepatitis and hepatocellular carcinoma. We investigated the interaction of the two human p62 isoforms, p62-H1 (full-length isoform) and p62-H2 (partly devoid of PB1 domain), with keratins 8 and 18, the major components of MDBs. In human liver, p62-H2 is expressed two-fold higher compared to p62-H1 at the mRNA level and is present in slightly but not significantly higher concentrations at the protein level. Co-transfection studies in CHO-K1 cells, PLC/PRF/5 cells as well as p62− total-knockout and wild-type mouse fibroblasts revealed marked differences in the cytoplasmic distribution and aggregation behavior of the two p62 isoforms. Transfection-induced overexpression of p62-H2 generated large cytoplasmic aggregates in PLC/PRF/5 and CHO-K1 cells that mostly co-localized with transfected keratins resembling MDBs or (transfection without keratins) intracytoplasmic hyaline bodies. In fibroblasts, however, transfected p62-H2 was predominantly diffusely distributed in the cytoplasm. Aggregation of p62-H2 and p62ΔSH2 as well as the interaction with K8 (but not with K18) involves acquisition of cross-β-sheet conformation as revealed by staining with luminescent conjugated oligothiophenes. These results indicate the importance of considering p62 isoforms in protein aggregation disease. [ABSTRACT FROM AUTHOR]

Published

2021