Novel Roles for Actin in Mitochondrial Fission

Mitochondrial dynamics, including fusion, fission and translocation, are crucial to cellular homeostasis, with roles in cellular polarity, stress response and apoptosis. Mitochondrial fission has received particular attention, owing to links with several neurodegenerative diseases. A central player in fission is the cytoplasmic dynamin-related GTPase Drp1, which oligomerizes at the fission site and hydrolyzes GTP to drive membrane ingression. Drp1 recruitment to the outer mitochondrial membrane (OMM) is a key regulatory event, which appears to require a pre-constriction step in which the endoplasmic reticulum (ER) and mitochondrion interact extensively, a process termed ERMD (ER-associated mitochondrial division). It is unclear how ER-mitochondrial contact generates the force required for pre-constriction or why pre-constriction leads to Drp1 recruitment. Recent results, however, show that ERMD might be an actin-based process in mammals that requires the ER-associated formin INF2 upstream of Drp1, and that myosin II and other actin-binding proteins might be involved. In this Commentary, we present a mechanistic model for mitochondrial fission in which actin and myosin contribute in two ways; firstly, by supplying the force for pre-constriction and secondly, by serving as a coincidence detector for Drp1 binding. In addition, we discuss the possibility that multiple fission mechanisms exist in mammals

Connecting the Cytoskeleton to the Endoplasmic Reticulum and Golgi

A tendency in cell biology is to divide and conquer. For example, decades of painstaking work have led to an understanding of endoplasmic reticulum (ER) and Golgi structure, dynamics, and transport. In parallel, cytoskeletal researchers have revealed a fantastic diversity of structure and cellular function in both actin and microtubules. Increasingly, these areas overlap, necessitating an understanding of both organelle and cytoskeletal biology. This review addresses connections between the actin/microtubule cytoskeletons and organelles in animal cells, focusing on three key areas: ER structure and function; ER-to-Golgi transport; and Golgi structure and function. Making these connections has been challenging for several reasons: the small sizes and dynamic characteristics of some components; the fact that organelle-specific cytoskeletal elements can easily be obscured by more abundant cytoskeletal structures; and the difficulties in imaging membranes and cytoskeleton simultaneously, especially at the ultrastructural level. One major concept is that the cytoskeleton is frequently used to generate force for membrane movement, with two potential consequences: translocation of the organelle, or deformation of the organelle membrane. While initially discussing issues common to metazoan cells in general, we subsequently highlight specific features of neurons, since these highly polarized cells present unique challenges for organellar distribution and dynamics

Structural basis for tunable control of actin dynamics by myosin-15 in mechanosensory stereocilia

The motor protein myosin-15 is necessary for the development and maintenance of mechanosensory stereocilia, and mutations in myosin-15 cause hereditary deafness. In addition to transporting actin regulatory machinery to stereocilia tips, myosin-15 directly nucleates actin filament (“F-actin”) assembly, which is disrupted by a progressive hearing loss mutation (p.D1647G, “jordan”). Here, we present cryo–electron microscopy structures of myosin-15 bound to F-actin, providing a framework for interpreting the impacts of deafness mutations on motor activity and actin nucleation. Rigor myosin-15 evokes conformational changes in F-actin yet maintains flexibility in actin’s D-loop, which mediates inter-subunit contacts, while the jordan mutant locks the D-loop in a single conformation. Adenosine diphosphate–bound myosin-15 also locks the D-loop, which correspondingly blunts actin-polymerization stimulation. We propose myosin-15 enhances polymerization by bridging actin protomers, regulating nucleation efficiency by modulating actin’s structural plasticity in a myosin nucleotide state–dependent manner. This tunable regulation of actin polymerization could be harnessed to precisely control stereocilium height

Epidemiology of pemphigus in Turkey: One-year prospective study of 220 cases

Pemphigus is a group of rare and life-threatening autoimmune blistering diseases of the skin and mucous membranes. Although they occur worldwide, their incidence shows wide geographical variation, and prospective data on the epidemiology of pemphigus are very limited. Objective of this work is to evaluate the incidence and epidemiological and clinical features of patients with pemphigus in Turkey. All patients newly diagnosed with pemphigus between June 2013 and June 2014 were prospectively enrolled in 33 dermatology departments in 20 different provinces from all seven regions of Turkey. Disease parameters including demography and clinical findings were recorded. A total of 220 patients were diagnosed with pemphigus during the 1-year period, with an annual incidence of 4.7 per million people in Turkey. Patients were predominantly women, with a male to female ratio of 1:1.41. The mean age at onset was 48.9 years. Pemphigus vulgaris (PV) was the commonest clinical subtype (n=192; 87.3%), followed by pemphigus foliaceus (n=21; 9.6%). The most common clinical subtype of PV was the mucocutaneous type (n=83; 43.2%). The mean Pemphigus Disease Area Index was 28.14±22.21 (mean ± Standard Deviation).  The incidence rate of pemphigus in Turkey is similar to the countries of South-East Europe, higher than those reported for the Central and Northern European countries and lower than the countries around the Mediterranean Sea and Iran. Pemphigus is more frequent in middle-aged people and is more common in women. The most frequent subtype was PV, with a 9-fold higher incidence than pemphigus foliaceus.   </p

Immobilization of Rubia tinctorum L. suspension cultures and its effects on alizarin and purpurin accumulation and biomass production

WOS: 000312587800014The present study is investigating the immobilization of Rubia tinctorum L. suspension cultures. The effects of three inoculation volumes and three immobilization materials (loofa, sisal and jute) on fresh and dry weights of biomass as well as on alizarin and purpurin production were determined in this study. Two grams of four-week old callus tissue were transferred to liquid medium to establish suspension cultures. After four weeks, suspension cultures of R. tinctorum at concentration of 8 x 10(5) living cells/ml were immobilized with lignocellulosic materials and the cells were attached to all immobilization materials at the end of the first week and started to form aggregates on them. At the fourth week of these batch systems, biomass was measured approximately three times higher than the starting suspension cultures. The highest fresh weight was obtained (339.40 g/l) from sisal with A1/2 inoculation ratio. Immobilization materials and inoculation volumes had an effect on dry weights, and accordingly, the most effective combinations were jute with A1/4 (J3) and A1/2 (J1) inoculation volumes with 7.86 and 7.82 g/l dry weights, respectively. Alizarin and purpurin contents of immobilized cells, analyzed with U-HPLC method, were 6.05 and 22.91 times higher than inoculated cells. All immobilization materials used in this study had no negative effect on to cells and biomass accumulation was enhanced. Concomitantly with rapid biomass increase, alizarin and purpurin production was ascended

Astragaloside IV and Cycloastragenol Production Capacity of Astragalus trojanus Calli

WOS: 000350973300004Astragalus species are medicinal plants which produce valuable secondary metabolites, especially cycloartane-type glycosides. In this study, stem and leaf explants of Astragalus trojanus were subjected to different plant growth regulators, environmental conditions and media compositions to identify their callus responses. Stem and leaf explants were cultured in Murashige and Skoog (MS) and woody plant (WPM) media supplemented with different concentrations of kinetin, naphthalene acetic acid, 2,4-dichlorophenoxyacetic acid, thidiazurone and indol acetic acid under two light intensities (1000 and 4000 lux) and also in dark conditions. Both MS and WPM media triggered callus regeneration. Although, callus regeneration was observed on both stem and leaf explants, callus biomass accumulation on stem explants were higher. Addition of 100 mu g/L selenium and doubled concentration of WPM vitamins enhanced callus biomass on stem explants under dark conditions. Stem explants also regenerated shoots at high frequencies (up to 93%), especially in kinetin added media. Astragaloside IV and cycloastragenol accumulation efficiencies were determined in calli tissues. The highest astragaloside IV production (3.5 mu g/mg) was found in callus tissue regenerated from stem explants in D1 medium, whereas the highest cycloastragenol accumulation (4.8 mu g/mg) was detected in callus tissue regenerated from stem explants in N2 medium.Scientific and Technical Research Council of Turkey (TUBITAK)Turkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [TOVAG-109O62]The financial support of The Scientific and Technical Research Council of Turkey (TUBITAK) (Project No. TOVAG-109O627) is gratefully acknowledged

Determination of phenolic content and antioxidant activity of extracts obtained from Rosmarinus officinalis' calli

WOS: 000250983300014PubMed ID: 17913287Rosmarinus officinalis is widely found in the lands of Aegean and Mediterranean regions of Turkey. Stem explants of very young shoots were cultured in both woody plant medium (WPM) and Murashige and Skoog (MS) media supplemented with 7 g/L agar, 30 g/L sucrose, and 1 and 3 mg/L naphthaleneacetic acid (NAA) for callus initiation. Induced calli were subcultured 4 times with intervals of 7-10 days. MS medium supplemented with 1 mg/L NAA proved to be the best medium for the production of callus (65.0%) among the samples tested. The lyophilized calli were subjected to solvent extraction. Active constituents of 8 calli extracts were analyzed by HPLC, and rosmarinic acid (RA) was determined to be the primary compound. Calli cultivated in WPM supplemented with 1 mg/L NAA and extracted at 50 degrees C, yielded the highest amount of RA (34.4mg/g dry weight). Moreover, antioxidant activity of calli extracts was determined using a number of in vitro assays, including total phenol assay, DPPH radical. scavenging activity (RSA), and trolox equivalent antioxidant capacity (TEAC). On the basis of the current findings, we conclude that WPM supplemented with 1 mg/L NAA yields higher phenolic content as well. as higher antioxidant activity. (C) 2007 Elsevier GmbH. All rights reserved