6 research outputs found
Stable switch action based on quantum interference effect
Although devices working on quantum principles can revolutionize the
electronic industry, they have not been achieved yet as it is difficult to
control their stability. We show that one can use evanescent modes to build
stable quantum switches. The physical principles that make this possible is
explained in detail. Demonstrations are given using a multichannel Aharonov -
Bohm interferometer. We propose a new matrix for multichannel junctions to
solve the scattering problem.Comment: 12 figure
Quantum capacitance: a microscopic derivation
We start from microscopic approach to many body physics and show the
analytical steps and approximations required to arrive at the concept of
quantum capacitance. These approximations are valid only in the semi-classical
limit and the quantum capacitance in that case is determined by Lindhard
function. The effective capacitance is the geometrical capacitance and the
quantum capacitance in series, and this too is established starting from a
microscopic theory.Comment: 7 fig
RGS6 drives cardiomyocyte death following nucleolar stress by suppressing Nucleolin/miRNA-21
Abstract Background Prior evidence demonstrated that Regulator of G protein Signaling 6 (RGS6) translocates to the nucleolus in response to cytotoxic stress though the functional significance of this phenomenon remains unknown. Methods Utilizing in vivo gene manipulations in mice, primary murine cardiac cells, human cell lines and human patient samples we dissect the participation of a RGS6-nucleolin complex in chemotherapy-dependent cardiotoxicity. Results Here we demonstrate that RGS6 binds to a key nucleolar protein, Nucleolin, and controls its expression and activity in cardiomyocytes. In the human myocyte AC-16 cell line, induced pluripotent stem cell derived cardiomyocytes, primary murine cardiomyocytes, and the intact murine myocardium tuning RGS6 levels via overexpression or knockdown resulted in diametrically opposed impacts on Nucleolin mRNA, protein, and phosphorylation.RGS6 depletion provided marked protection against nucleolar stress-mediated cell death in vitro, and, conversely, RGS6 overexpression suppressed ribosomal RNA production, a key output of the nucleolus, and triggered death of myocytes. Importantly, overexpression of either Nucleolin or Nucleolin effector miRNA-21 counteracted the pro-apoptotic effects of RGS6. In both human and murine heart tissue, exposure to the genotoxic stressor doxorubicin was associated with an increase in the ratio of RGS6/Nucleolin. Preventing RGS6 induction via introduction of RGS6-directed shRNA via intracardiac injection proved cardioprotective in mice and was accompanied by restored Nucleolin/miRNA-21 expression, decreased nucleolar stress, and decreased expression of pro-apoptotic, hypertrophy, and oxidative stress markers in heart. Conclusion Together, these data implicate RGS6 as a driver of nucleolar stress-dependent cell death in cardiomyocytes via its ability to modulate Nucleolin. This work represents the first demonstration of a functional role for an RGS protein in the nucleolus and identifies the RGS6/Nucleolin interaction as a possible new therapeutic target in the prevention of cardiotoxicity