Axonal plasticity in response to active forces generated through magnetic nano-pulling

1. Download : Download high-res image (170KB)
2. Download : Download full-size image

     

Three‐dimensional organization of the cytoskeleton: A cryo‐electron tomography perspective

Traditionally, structures of cytoskeletal components have been studied ex situ, that is, with biochemically purified materials. There are compelling reasons to develop approaches to study them in situ in their native functional context. In recent years, cryo‐electron tomography emerged as a powerful method for visualizing the molecular organization of unperturbed cellular landscapes with the potential to attain near‐atomic resolution. Here, we review recent works on the cytoskeleton using cryo‐electron tomography, demonstrating the power of in situ studies. We also highlight the potential of this method in addressing important questions pertinent to the field of cytoskeletal biomechanics.     

Effect of deuterium oxide on gastrin release from rat antral mucosal fragments

The effects of the microtubule stabilizing agent, deuterium oxide, on in vitro rat antral gastrin release were examined under basal conditions and during stimulation with isobutyl methylxanthine and bombesin plus isobutyl methylxanthine. Basal gastrin release from antral mucosal fragments was unaffected by increasing media concentration of deuterium oxide (12.5 to 75% v/v) during 1 h incubations. Gastrin release stimulated by isobutyl methylxanthine (0.1 mM), a potent inhibitor of phosphodiesterase activity, was inhibited completely by 12.5% deuterium oxide. Bombesin (1 × 10^?8 M) in the presence of IBMX (0.1 mM) stimulated gastrin release (29.7 ± 1.9% of total gastrin). This was significantly greater than gastrin released under control conditions and with IBMX alone: 12.0 ± 1.1 (P < 0.001) and 20.2 ± 2.6% of total gastrin (P < 0.02), respectively. Partial inhibition of bombesin-IBMX stimulated gastrin release was achieved with 12.5% and 25% deuterium oxide and stimulation of gastrin release was inhibited completely by 50% deuterium oxide. In contrast to these results, gastrin release stimulated by the calcium ionophore A23187 was not inhibited by 50% deuterium oxide. Additional studies were performed to assess reversibility of the effects of deuterium oxide on stimulated gastrin release. Antral tissue exposed to initial culture medium containing deuterium oxide (50%) and bombesin-IBMX for 60 min was exchanged for medium without deuterium oxide. Restimulation of antral tissue during the second hour of culture resulted in gastrin release that was comparable to that observed in cultures not exposed to deuterium oxide during the first hour of culture. Reversibility of the effects of deuterium oxide suggest that a functional alteration in microtubular function is restored by removal of heavy water from the culture medium. Results of these experiments indicate that deuterium oxide is capable of inhibiting gastrin release stimulated by the peptide hormone bombesin and by the phosphodiesterase inhibitor isobutyl methylxanthine. Furthermore, these results suggest that increased levels of intracellular calcium achieved by the action of ionophore A23187 prevent microtubular stabilization by deuterium oxide.     

The Lipid Peroxidation Product 4-Hydroxynonenal Inhibits Neurite Outgrowth, Disrupts Neuronal Microtubules, and Modifies Cellular Tubulin

Oxidative stress is believed to be an important factor in the development of age-related neurodegenerative diseases such as Alzheimer's disease (AD). The CNS is enriched in polyunsaturated fatty acids and is therefore particularly vulnerable to lipid peroxidation. Indeed, accumulation of lipid peroxidation products has been demonstrated in affected regions in brains of AD patients. Another feature of AD is a change in neuronal microtubule organization. A possible causal relationship between lipid peroxidation products and changes in neuronal cell motility and cytoskeleton has not been investigated. We show here that 4-hydroxy-2(E)-nonenal (HNE), a major product of lipid peroxidation, inhibits neurite outgrowth and disrupts microtubules in Neuro 2A cells. The effect of HNE on microtubules was rapid, being observed after incubation times as short as 15 min. HNE can react with target proteins by forming either Michael adducts or pyrrole adducts. 4-Oxononanal, an HNE analogue that can form only pyrrole adducts but not Michael adducts, had no effect on the microtubules. This suggests that the HNE-induced disruption of microtubules occurs via Michael addition. We also show that cellular tubulin is one of the major proteins modified by HNE and that the HNE adduction to tubulin occurs via Michael addition. Inhibition of neurite outgrowth, disruption of microtubules, and tubulin modification were observed at pathologically relevant HNE concentrations and were not accompanied by cytotoxicity. Our results show that these are proximal effects of HNE that may contribute to cytoskeletal alterations that occur in AD.     

Uncoupling of IL-6 signaling and LC3-associated phagocytosis drives immunoparalysis during sepsis

1. Download : Download high-res image (87KB)
2. Download : Download full-size image

     

Cytoskeletal Drugs and Gravity-Induced Lateral Auxin Transport in Rice Coleoptiles

Abstract: Gravity-induced events such as amyloplast sedimentation and lateral auxin transport were probed with cytoskeletal drugs in coleoptiles of rice ( Oryza sativa L.). Amyloplast sedimentation was retarded by taxol. Lateral transport of auxin (³H-indoleacetic acid) was strongly inhibited by EPC (ethyl N-phenylcarbamate), but only partially inhibited by taxol. 1 mM EPC reduced gravitropism while phototropism was not affected. The findings suggest that microtubules may transduce pressure or proximity of amyloplasts to the auxin exporter in the plasmalemma.     

Induction of intranuclear microtubules in chick embryo fibroblasts by frog virus 3

Summary Intranuclear microtubules appear in chick embryo fibroblasts upon infection with Frog Virus 3 (FV 3). Both the diameter and the annular shape of the microtubule profiles, established from electron microscopic observations using a goniometer, suggest that they are identical to naturally occurring cytoplasmic microtubules. Furthermore, the use of vinblastine allowed demonstration of the tubulin composition of the intranuclear microtubules.     

Adhesion plaques associated with the production of a daughter cell in Euglypha (Testacea; Potozoa)

Summary Euglypha acanthophora and Euglypha strigosa, testate amoebae with siliceous shells, undergo binary fission producing daughter cells. The siliceous plates from which the shells are constructed are produced in the Golgi and perinuclear regions of the parent. At binary fission these pass along microtubule pathways and are manoeuvered into position in the daughter-cell by microtubule (20–25 nm) and microfilament (7–9 nm) systems. The latter in the form of adhesion plaques are instrumental in the coordination and deployment of the shell-plates.     

Ultrastructure of microtubules in dermal melanophores and spinal nerve of the Antarctic teleost Pagothenia borchgrevinki

Summary The antarctic teleost, Pagothenia borchgrevinki inhabits the Antarctic Ocean where the water temperature remains around -1.9° C throughout the year. Dermal melanophores of this fish respond within minutes to epinephrine and theophylline with melanosome aggregation and dispersion, respectively. Numerous cytoplasmic microtubules are present in these cells despite the low environmental temperature. In longitudinal profiles, many microtubules are twisted, beaded and sometimes even branched. In cross sections, C-, U-, S-, 6- and other irregularly shaped tubules are observed. Nocodazole partially disrupts microtubules and inhibits epinephrine-induced pigment aggregation. Pigment movements are also prevented by erythro-9-[3-(2-hydroxynonyl)] adenine. Although the participation of these incomplete microtubules in cell motility remains uncertain, the results indicate that this fish has a cold-resistant microtubule system on which melanosome movements depend. Unlike those in melanophores, microtubules in the axons of spinal nerves are of uniform thickness and often contain an electron-dense core in the center.