Novel amiloride derivatives that inhibit bacterial motility across multiple strains and stator types

The bacterial flagellar motor (BFM) is a protein complex that confers motility to cells and contributes to survival and virulence. The BFM consists of stators that are ion-selective membrane protein complexes and a rotor that directly connects to a large filament, acting as a propeller. The stator complexes couple ion transit across the membrane to torque that drives rotation of the motor. The most common ion gradients that drive BFM rotation are protons (H+) and sodium ions (Na+). The sodium-powered stators, like those in the PomAPomB stator complex of Vibrio spp, can be inhibited by sodium channel inhibitors, in particular, by phenamil, a potent and widely used inhibitor. However, relatively few new sodium-motility inhibitors have been described since the discovery of phenamil. In this study, we discovered two motility inhibitors HM2-16F and BB2-50F from a small library of previously reported amiloride derivatives. Using a tethered cell assay, we showed that both HM2-16F and BB2-50F had inhibition comparable to that of phenamils on Na+ driven motors at matching concentrations, with an additional ability to inhibit rotation in H+ driven motors. The two compounds did not exhibit adverse effects on bacterial growth at the motility-inhibiting concentration of 10 uM, however toxicity was seen for BB2-50F at 100 uM. We performed higher resolution measurements to examine rotation inhibition at moderate (1 um polystyrene bead) and low loads (60 nm gold bead) and in both the presence and absence of stators. These measurements suggested that the compounds did not inhibit rotation via direct association with the stator, in contrast to the established mode of action of phenamil. Overall, HM2-16F and BB2-50F showed reversible inhibition of motility across a range of loads, in both Na+ and H+ stator types, and in pathogenic and non-pathogenic strains.

Development of Computer-Aided Manufacturing System for a Jewelry-Making CNC Machine

This paper designs a CAM system for a jewelry-making CNC machine. The CAM system not only provides a human-computer interface for setting machining parameters, but also can generate special NC programs automatically and realize the simulation for the machining process. In addition, the paper gives an efficient application for machining an ellipsoidal gold bead. The basic design of the jewelry-making CAM system and the experimental results are presented.

Design of Gold Bead Chain Machine Based on Modern Design Methodology

This paper presents the design of a gold bead chain machine. The gold bead chain machine is designed for automatic gold chain process. Firstly, the gold bead chain’ structure and the design requirement are discussed. Then, based on the modern design methodology, the authors design the gold bead chain machine by using black-box to get the morphological matrix of the function and the function unit solutions. Lastly, the authors analyze and choose the optimal scheme and make an integration of the function unit solutions.

Inflammatory Response to Therapeutic Gold Bead Implantation in Canine Hip Joint Osteoarthritis

Inflammatory changes associated with periarticular pure gold bead implants were studied in dogs involved in a clinical trial investigating motor dysfunction and chronic pain owing to hip joint dysplasia and osteoarthritis. Gold beads were percutaneously implanted via a needle into different locations surrounding the greater trochanter of the femur. Nine dogs with implants were necropsied. In all examined animals, characteristic histologic lesions were observed in the tissue surrounding the gold implants—namely, a fibrous capsule composed of concentric fibroblasts intermixed with a variable number of inflammatory cells and a paucicellular innermost layer of collagen with a few fibrocyte-like cells in empty lacunae. Lymphocytes dominated the inflammatory infiltrate, with rarely observed macrophages present in close proximity to the implant site. No giant cells were observed. Immunohistochemistry showed mixed populations of lymphocytes, both CD3 positive (T cells) and CD79a positive (B cells), which in some cases formed lymphoid follicles. Diffuse inflammatory changes were present to a minor extent in the perimysium and surrounding fascia. The inflammation observed in dogs is similar to that observed with gold implants in humans. It is possible that the clinically beneficial effect of gold beads for chronic osteoarthritis depends on sustained localized inflammation with localized release of soluble mediators. The encapsulation of the implant by a paucicellular and poorly vascularized fibrous capsule may help prevent an exaggerated inflammatory reaction by sequestering the gold bead from the surrounding tissue.