Na super(+)-, ouabain-, Ca super(2+)-, and thapsigargin-sensitive ATPase activity expressed in chimeras between the calcium and the sodium pump alpha subunits
Using the chicken sarcoplasmic/endoplasmic reticulum Ca super(2+) (SERCA)-ATPase as a parental molecule and replacing various portions with the corresponding portions of the chicken Na super(+),K super(+)-ATPase alpha sub(1) subunit, Ca super(2+)/thapsigargin- and Na super(+)/ouabain-sensitive domai...
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Veröffentlicht in: | Proceedings of the National Academy of Sciences - PNAS 1994-01, Vol.91 (13), p.6103-6107 |
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Sprache: | eng |
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Zusammenfassung: | Using the chicken sarcoplasmic/endoplasmic reticulum Ca super(2+) (SERCA)-ATPase as a parental molecule and replacing various portions with the corresponding portions of the chicken Na super(+),K super(+)-ATPase alpha sub(1) subunit, Ca super(2+)/thapsigargin- and Na super(+)/ouabain-sensitive domains critical for these P-type ATPase activities were identified. In the chimera, [n/c]CC, the amino-terminal amino acids Met-1 to Asp-162 of the SERCA (isoform 1) (SERCA1) ATPase were replaced with the corresponding portion (Met-1-Asp-200) of the Na super(+),K super(+)-ATPase alpha sub(1) subunit. In the chimera CC[c/n], the carboxyl-terminal amino acids (Ser-830 to COOH) of the SERCA1 ATPase were replaced with the corresponding segment (Leu-861 to COOH) of the Na super(+),K super(+)-ATPase alpha sub(1) subunit, and in the chimera CNC, the middle part (Gly-354-Lys-712) of the SERCA1 ATPase was exchanged with the Na super(+),K super(+)-ATPase alpha sub(1) subunit (Gly-378-Lys-724). None of the chimeric molecules exhibited any detectable ouabain-sensitive Na super(+),K super(+)-ATPase activity, but they did exhibit thapsigargin-sensitive Ca super(2+)-ATPase activity. Therefore, the segments Ile-163-Gly-354 and Lys-712-Ser-830 of the SERCA1 ATPase are sufficient for Ca super(2+) and thapsigargin sensitivity. The SERCA1-ATPase activity of [n/c]CC, but not of CCC, CNC, or CC[c/n], was further stimulated by addition of Na super(+) in the assay medium containing Ca super(2+). This additional stimulation of SERCA1-ATPase activity by Na super(+) was abolished when the amino-terminal region (Met-1-Leu-69) of [n/c]CC was deleted ([ Delta n/c]CC). In the absence of Na super(+), the SERCA1-ATPase activity of [n/c]CC was inhibited by ouabain, and, in the presence of Na super(+), its activity was stimulated by this drug. On the other hand, the ATPase activity of [ Delta n/c]CC was not affected by ouabain, although [ Delta n/c]CC can still bind [ super(3)H]ouabain. These results suggest that a distinct Na super(+)-sensitive domain (Na super(+) sensor) located within the restricted amino-terminal region (Met-1-Leu-69) of the Na super(+),K super(+)-ATPase alpha sub(1) subunit regulates ATPase activity. The Na super(+) sensor also controls ouabain action in concert with the major ouabain-binding region between Ala-70 and Asp-200 of alpha sub(1) subunit. |
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ISSN: | 0027-8424 |