Heart failure is responsible for one in twenty deaths in the UK, and as the average age of the general population increases that number is predicted to rise over the coming years. Hypertrophic growth is believed to be an adaptive response to a chronic increase in workload under circumstances such as hypertension, yet it is also known to contribute to the pathological progression into heart failure. Abnormal calcium handling is known to play a critical role in determining disease progression, not only through its function as the driving force behind myocardial contraction and relaxation but also through directing the signals which regulate hypertrophic growth. Both isoforms 1 and 4 of the diastolic calcium extrusion pump plasma membrane calcium ATPase (PMCA) are present in the heart, yet unlike in other cell types their contribution to overall calcium clearance is only small; however their role in the disease process is yet to be defined. A novel mouse line was generated in which both PMCA1 and 4 were deleted from the myocardium (PMCA1:4dcko mice). Through comparison with PMCA1 knockout mice (PMCA1cko) this thesis set out to identify the specific function of each pump under normal conditions and during the development of pathological hypertrophy induced by pressure overload through transverse aortic constriction (TAC).Under basal conditions each isoform functioned independently, PMCA1 to extrude calcium during diastole and PMCA4 to regulate calcium levels during systole; however the loss of neither isoform impacted significantly on cardiac function. In response to TAC, PMCA1cko mice progressed rapidly into decompensation and displayed signs of systolic failure after just 2 weeks, whilst cardiac function was preserved in TAC controls. Calcium handling analysis revealed that prior to the onset of failure PMCA1cko mice displayed a distinct lack of adaptive changes to calcium cycling which were present in controls. In stark contrast, the additional loss of PMCA4 led to an attenuated hypertrophic response to TAC in PMCA1:4dcko mice which remarkably preserved cardiac function despite the absence of PMCA1. This adds to accumulating evidence which suggests that the inhibition of PMCA4 may be protective during the development of pathological hypertrophy, whilst highlighting the possibility for a novel role for PMCA1 in coordinating essential adaptations required to enhance calcium cycling in response to the increased demands imposed on the left ventricle during pressure overload.
| Identifer | oai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:607415 |
| Date | January 2014 |
| Creators | Stafford, Nicholas Pierre |
| Contributors | Cartwright, Elizabeth |
| Publisher | University of Manchester |
| Source Sets | Ethos UK |
| Detected Language | English |
| Type | Electronic Thesis or Dissertation |
| Source | https://www.research.manchester.ac.uk/portal/en/theses/the-independent-roles-of-pmca1-and-pmca4-in-the-development-and-progression-of-left-ventricular-hypertrophy-and-failure(bd746ae0-8189-433a-8a0e-ecb4506afe62).html |
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