A Potential Route of Capsaicin to Its Binding Site in the TRPV1 Ion Channel.

Transient receptor potential (TRP) ion channels are important pharmacological targets because of their role in the perception of pain, and so, understanding their chemical regulation is essential for the development of analgesic drugs. Among the currently known TRP channel chemical agonists, capsaicin, the active compound of chili pepper, is probably the most exhaustively studied. The availability of the three-dimensional structure of the vanilloid receptor 1 (TRPV1) has fueled computational studies revealing the molecular details of capsaicin binding modes.

Effect of anionic lipids on ion permeation through the KcsA K-channel.

K-channels are responsible for the efficient and selective conduction of K ions across the plasma membrane. The bacterial K-channel KcsA has historically been used to characterize various aspects of K conduction via computational means. The energetic barriers associated with ion translocation across the KcsA selectivity filter have been computed in various studies, leading to the proposal of two alternate mechanisms of conduction, involving or neglecting the presence of water molecules in between the permeating ions.

Insights into the Mechanisms of K Permeation in K Channels from Computer Simulations.

Ion permeation, selectivity, and the behavior of the K channel selectivity filter have been studied intensively in the previous two decades. The agreement among multiple approaches used to study ion flux in K channels suggests a consensus mechanism of ion permeation across the selectivity that has been put to the test in recent years with the proposal of an alternative way by which ions can cross the selectivity filter of K channels via direct Coulomb repulsion between contacting cations. Past experimental work by Zhou and MacKinnon ( , , 839) showed that mutation of the site S4 reduces the total occupancy of the selectivity filter to less than two ions on average by lowering the occupancy of the S2-S4 configuration without changing the S1-S3 configuration much, and this reduction of occupancy means that ion configurations different from the ones involved in the canonical mechanism are likely to be involved.

Cytomegalovirus Retinitis Diagnosis and Treatment in a Kidney Transplant Recipient.

Cytomegalovirus retinitis is a rare complication in kidney transplant patients with only one other reported incidence. A 70-year-old female with a previous history of kidney transplant began experiencing a decreased vision of her right eye and was diagnosed with CMV retinitis and started on ganciclovir treatment. After completing the treatment, the patient has had no signs of recurrence or any other complaints.

Modulation of the potassium channel KcsA by anionic phospholipids: Role of arginines at the non-annular lipid binding sites.

The role of arginines R64 and R89 at non-annular lipid binding sites of KcsA, on the modulation of channel activity by anionic lipids has been investigated. In wild-type (WT) KcsA reconstituted into asolectin lipid membranes, addition of phosphatidic acid (PA) drastically reduces inactivation in macroscopic current recordings. Consistent to this, PA increases current amplitude, mean open time and open probability at the single channel level.

Combining Structural Data with Computational Methodologies to Investigate Structure-Function Relationships in TRP Channels.

Since the emergence of high-resolution three-dimensional structures of membrane proteins, and the increasing availability of state-of-the-art algorithms and high-performance-computing facilities, classical molecular dynamics (MD) simulations have become a routine device to explore the molecular behavior of these proteins. The rise of cryo-electron microscopy (cryo-EM) as a credible experimental tool to resolve structures at an atomic level has revolutionized structural biology in recent years, culminating in the disclosure of the first high-resolution three-dimensional structure of a transient receptor potential (TRP) channel, the vanilloid receptor 1 (TRPV1). As a result, the number of research articles investigating the molecular behavior of TRP channels using macromolecular simulation techniques has proliferated.

Influence of Cholesterol and Its Stereoisomers on Members of the Serotonin Receptor Family.

Despite the ubiquity of cholesterol within the cell membrane, the mechanism by which it influences embedded proteins remains elusive. Numerous G-protein coupled receptors exhibit dramatic responses to membrane cholesterol with regard to the ligand-binding affinity and functional properties, including the 5-HT receptor family. Here, we use over 25 μs of unbiased atomistic molecular dynamics simulations to identify cholesterol interaction sites in the 5-HT and 5-HT receptors and evaluate their impact on receptor structure.

Capturing the Molecular Mechanism of Anesthetic Action by Simulation Methods.

Significant computational efforts have been focused toward exposing the molecular mechanisms of anesthesia in recent years. In the past decade, this has been aided considerably by a momentous increase in the number of high-resolution structures of ion channels, which are putative targets for the anesthetic agents, as well as advancements in high-performance computing technologies. In this review, typical simulation methods to investigate the behavior of model membranes and membrane-protein systems are briefly reviewed, and related computational studies are surveyed.

Exposure of the HIV-1 broadly neutralizing antibody 10E8 MPER epitope on the membrane surface by gp41 transmembrane domain scaffolds.

The 10E8 antibody achieves near-pan neutralization of HIV-1 by targeting the remarkably conserved gp41 membrane-proximal external region (MPER) and the connected transmembrane domain (TMD) of the HIV-1 envelope glycoprotein (Env). Thus, recreating the structure that generates 10E8-like antibodies is a major goal of the rational design of anti-HIV vaccines. Unfortunately, high-resolution information of this segment in the native Env is lacking, limiting our understanding of the behavior of the crucial 10E8 epitope residues.

Stereospecific Interactions of Cholesterol in a Model Cell Membrane: Implications for the Membrane Dipole Potential.

Cholesterol is a major constituent of the plasma membrane in higher order eukaryotes. The effect of cholesterol on the structure and organisation of cell membranes has been studied extensively by both experimental and computational means. In recent years, a wealth of data has been accumulated illustrating how subtle differences in the structure of cholesterol equate to considerable changes in the physical properties of the membrane.

Oxytocin Modulates Nociception as an Agonist of Pain-Sensing TRPV1.

Oxytocin is a hormone with various actions. Oxytocin-containing parvocellular neurons project to the brainstem and spinal cord. Oxytocin release from these neurons suppresses nociception of inflammatory pain, the molecular mechanism of which remains unclear.

Exploring the Dynamics of the TWIK-1 Channel.

Potassium channels in the two-pore domain family (K2P) have various structural attributes that differ from those of other K(+) channels, including a dimeric assembly constituted of nonidentical domains and an expansive extracellular cap. Crystallization of the prototypical K2P channel, TWIK-1, finally revealed the structure of these characteristics in atomic detail, allowing computational studies to be undertaken. In this study, we performed molecular-dynamics simulations for a cumulative time of ∼1 μs to discern the mechanism of ion transport throughout TWIK-1.

Lateral Fenestrations in K(+)-Channels Explored Using Molecular Dynamics Simulations.

Potassium channels are of paramount physiological and pathological importance and therefore constitute significant drug targets. One of the keys to rationalize the way drugs modulate ion channels is to understand the ability of such small molecules to access their respective binding sites, from which they can exert an activating or inhibitory effect. Many computational studies have probed the energetics of ion permeation, and the mechanisms of voltage gating, but little is known about the role of fenestrations as possible mediators of drug entry in potassium channels.