AI Article Synopsis
- PMCA (plasma membrane Ca pumps) are proteins that help regulate calcium levels in cells by pumping calcium out of eukaryotic cells; humans have four genes that produce different PMCA variants (PMCA1-4) through a process called alternative splicing.
- The PMCA4 isoformas 'x' and 'z' have different tissue distributions and characteristics, with PMCA4z being mostly found in the brain and heart and lacking a segment in its structure that is important for its function.
- Experiments with both PMCA4 variants in yeast showed that PMCA4zb (the 'z' variant) has higher activity and calcium affinity compared to PMCA4xb (the 'x' variant), suggesting
Article Abstract
The plasma membrane Ca pumps (PMCA) are P-ATPases that control Ca signaling and homeostasis by transporting Ca out of the eukaryotic cell. Humans have four genes that code for PMCA isoforms (PMCA1-4). A large diversity of PMCA isoforms is generated by alternative mRNA splicing at sites A and C. The different PMCA isoforms are expressed in a cell-type and developmental-specific manner and exhibit differential sensitivity to a great number of regulatory mechanisms. PMCA4 has two A splice variants, the forms "x" and "z". While PMCA4x is ubiquitously expressed and relatively well-studied, PMCA4z is less characterized and its expression is restricted to some tissues such as the brain and heart muscle. PMCA4z lacks a stretch of 12 amino acids in the so-called A-M3 linker, a conformation-sensitive region of the molecule connecting the actuator domain (A) with the third transmembrane segment (M3). We expressed in yeast PMCA4 variants "x" and "z", maintaining constant the most frequent splice variant "b" at the C-terminal end, and obtained purified preparations of both proteins. In the basal autoinhibited state, PMCA4zb showed a higher ATPase activity and a higher apparent Ca affinity than PMCA4xb. Both isoforms were stimulated by calmodulin but PMCA4zb was more strongly activated by acidic lipids than PMCA4xb. The results indicate that a PMCA4 intrinsically more active and more responsive to acidic lipids is produced by the variant "z" of the splicing site A.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8428515 | PMC |
| http://dx.doi.org/10.3389/fncel.2021.668371 | DOI Listing |
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