Grants and Contracts Details
Description
Ca dysregulation in cardiac myocytes contributes to heart development defects and diseases of the
aging heart. The long-term objective of this proposal is to provide a molecular mechanism that explains how
cardiac L-type Ca channels (LTCC) sense and transduce signals that homeostatically regulate cardiac
myocytes. Cardiac myocytes present a conundrum with respect to Ca signaling to the nucleus. Cytosolic Ca
amplitude varies >10-fold during each cardiac cycle, yet alterations of Ca somehow are differentially decoded
for longer-term transcriptional signaling. In this funding period we will test whether Ca channel activity and the
cardiac L-type Ca channel itself encodes Ca signaling for long-term regulation. In the past funding period we
discovered that RGK chronically inhibited ICa,L (LTCC current), and this RGK inhibition of ICa,L resulted in a
compensatory up-regulation of CaV1.2 mRNA. This suggests that ICa,L block may signal transcriptional events
in the nucleus. In new studies we confirmed and extended this notion by showing that LTCC-pharmacologicalblock,
but not internal Ca in general is responsible for perturbing heart development. Along the same lines, in
mature heart, long-term blockade of LTCC also causes a compensatory up-regulation of LTCC and ICa,L. Our
driving hypothesis is that signaling is not simply determined by Ca, but by active Ca channels. The discovery
that mobile segment of LTCC is localized to the nucleus or t-tubules coupled with the recent report that this
peptide is a transcription factor drives the exciting new hypothesis that this segment of the LTCC, regulates
LTCC expression. We will study this aspect of long-term channel regulation in three aims: 1. We will assess
nuclear translocation of a domain of the LTCC, and determine the interaction between LTCC activity and subcellular
localization; 2. We will determine the ability of LTCC to auto-regulate itself transcriptionally; and 3. We
will determine the compensatory changes of SL Ca handling proteins in response to LTCC blockade. This work
may provide a missing molecular link between LTCC function and downstream signaling events.
Project Description
Status | Finished |
---|---|
Effective start/end date | 6/1/09 → 5/31/16 |
Funding
- National Heart Lung and Blood Institute: $1,806,521.00
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