Open Access. Powered by Scholars. Published by Universities.®
- Discipline
Articles 1 - 7 of 7
Full-Text Articles in Entire DC Network
Cellular Endosomal Potassium Ion Flux Regulates Arenavirus Uncoating During Virus Entry, Amelia B Shaw, Hiu Nam Tse, Owen Byford, Grace Plahe, Alex Moon-Walker, Samantha E Hover, Erica Ollmann Saphire, Sean P J Whelan, Jamel Mankouri, Juan Fontana, John N Barr
Cellular Endosomal Potassium Ion Flux Regulates Arenavirus Uncoating During Virus Entry, Amelia B Shaw, Hiu Nam Tse, Owen Byford, Grace Plahe, Alex Moon-Walker, Samantha E Hover, Erica Ollmann Saphire, Sean P J Whelan, Jamel Mankouri, Juan Fontana, John N Barr
2020-Current year OA Pubs
Lymphocytic choriomeningitis virus (LCMV) is an enveloped and segmented negative-sense RNA virus classified within the
Kv12-Encoded K+ Channels Drive The Day-Night Switch In The Repetitive Firing Rates Of Scn Neurons, Tracey O Hermanstyne, Nien-Du Yang, Daniel Granados-Fuentes, Xiaofan Li, Rebecca L Mellor, Timothy Jegla, Erik D Herzog, Jeanne M Nerbonne
Kv12-Encoded K+ Channels Drive The Day-Night Switch In The Repetitive Firing Rates Of Scn Neurons, Tracey O Hermanstyne, Nien-Du Yang, Daniel Granados-Fuentes, Xiaofan Li, Rebecca L Mellor, Timothy Jegla, Erik D Herzog, Jeanne M Nerbonne
2020-Current year OA Pubs
Considerable evidence suggests that day-night rhythms in the functional expression of subthreshold potassium (K+) channels regulate daily oscillations in the spontaneous firing rates of neurons in the suprachiasmatic nucleus (SCN), the master circadian pacemaker in mammals. The K+ conductance(s) driving these daily rhythms in the repetitive firing rates of SCN neurons, however, have not been identified. To test the hypothesis that subthreshold Kv12.1/Kv12.2-encoded K+ channels play a role, we obtained current-clamp recordings from SCN neurons in slices prepared from adult mice harboring targeted disruptions in the Kcnh8 (Kv12.1-/-) or Kcnh3 (Kv12.2-/-) locus. We found that mean nighttime repetitive firing rates …
Membrane Phospholipids Control Gating Of The Mechanosensitive Potassium Leak Channel Trek1, Philipp A M Schmidpeter, John T Petroff 2nd, Leila Khajoueinejad, Aboubacar Wague, Cheryl Frankfater, Wayland W L Cheng, Crina M Nimigean, Paul M Riegelhaupt
Membrane Phospholipids Control Gating Of The Mechanosensitive Potassium Leak Channel Trek1, Philipp A M Schmidpeter, John T Petroff 2nd, Leila Khajoueinejad, Aboubacar Wague, Cheryl Frankfater, Wayland W L Cheng, Crina M Nimigean, Paul M Riegelhaupt
2020-Current year OA Pubs
Tandem pore domain (K2P) potassium channels modulate resting membrane potentials and shape cellular excitability. For the mechanosensitive subfamily of K2Ps, the composition of phospholipids within the bilayer strongly influences channel activity. To examine the molecular details of K2P lipid modulation, we solved cryo-EM structures of the TREK1 K2P channel bound to either the anionic lipid phosphatidic acid (PA) or the zwitterionic lipid phosphatidylethanolamine (PE). At the extracellular face of TREK1, a PA lipid inserts its hydrocarbon tail into a pocket behind the selectivity filter, causing a structural rearrangement that recapitulates mutations and pharmacology known to activate TREK1. At the cytoplasmic …
Conformational Plasticity Of Nak2k And Trek2 Potassium Channel Selectivity Filters, Marcos Matamoros, Xue Wen Ng, Joshua B Brettmann, David W Piston, Colin G Nichols
Conformational Plasticity Of Nak2k And Trek2 Potassium Channel Selectivity Filters, Marcos Matamoros, Xue Wen Ng, Joshua B Brettmann, David W Piston, Colin G Nichols
2020-Current year OA Pubs
The K
Hyperkalemia And Electrocardiogram Manifestations In End-Stage Renal Disease, Zubaid Rafique, Bryan Hoang, Heba Mesbah, Ryan Pappal, Frank W Peacock, Raul Juarez-Vela, Lukasz Szarpak, Dick C Kuo
Hyperkalemia And Electrocardiogram Manifestations In End-Stage Renal Disease, Zubaid Rafique, Bryan Hoang, Heba Mesbah, Ryan Pappal, Frank W Peacock, Raul Juarez-Vela, Lukasz Szarpak, Dick C Kuo
2020-Current year OA Pubs
Hyperkalemia is one of the more common acute life-threatening metabolic emergencies. The aim of our study is to determine the correlation and accuracy of abnormal ECG parameters as a function of serum potassium concentration in the end-stage renal disease (ESRD) population. We performed a retrospective chart review of emergency department patients presenting with ESRD and receiving emergent hemodialysis treatment. A total of 96 patients, each with five independent ED visits, provided 480 sets of ECGs and electrolytes. Of these, four ECGs were excluded for inability to interpret, leaving a total of 476 patient encounters that met all inclusion criteria. Linear …
Structural Basis For Mechanotransduction In A Potassium-Dependent Mechanosensitive Ion Channel, Jonathan Mount, Grigory Maksaev, Brock T Summers, James A J Fitzpatrick, Peng Yuan
Structural Basis For Mechanotransduction In A Potassium-Dependent Mechanosensitive Ion Channel, Jonathan Mount, Grigory Maksaev, Brock T Summers, James A J Fitzpatrick, Peng Yuan
2020-Current year OA Pubs
Mechanosensitive channels of small conductance, found in many living organisms, open under elevated membrane tension and thus play crucial roles in biological response to mechanical stress. Amongst these channels, MscK is unique in that its activation also requires external potassium ions. To better understand this dual gating mechanism by force and ligand, we elucidate distinct structures of MscK along the gating cycle using cryo-electron microscopy. The heptameric channel comprises three layers: a cytoplasmic domain, a periplasmic gating ring, and a markedly curved transmembrane domain that flattens and expands upon channel opening, which is accompanied by dilation of the periplasmic ring. …
Despite Increasing Aldosterone, Elevated Potassium Is Not Necessary For Activating Aldosterone-Sensitive Hsd2 Neurons Or Sodium Appetite, Frederico S Fazan, Eduardo Colombari, Arthur D Loewy, Joel C Geerling
Despite Increasing Aldosterone, Elevated Potassium Is Not Necessary For Activating Aldosterone-Sensitive Hsd2 Neurons Or Sodium Appetite, Frederico S Fazan, Eduardo Colombari, Arthur D Loewy, Joel C Geerling
Open Access Publications
Restricting dietary sodium promotes sodium appetite in rats. Prolonged sodium restriction increases plasma potassium (pK), and elevated pK is largely responsible for a concurrent increase in aldosterone, which helps promote sodium appetite. In addition to increasing aldosterone, we hypothesized that elevated potassium directly influences the brain to promote sodium appetite. To test this, we restricted dietary potassium in sodium-deprived rats. Potassium restriction reduced pK and blunted the increase in aldosterone caused by sodium deprivation, but did not prevent sodium appetite or the activation of aldosterone-sensitive HSD2 neurons. Conversely, supplementing potassium in sodium-deprived rats increased pK and aldosterone, but did not …