Your search keyword '"Cell membranes -- Genetic aspects"' showing total 125 results

1. Impaired plasma membrane localization of ubiquitin ligase complex underlies 3-M syndrome development

Author

Wang, Pu, Yan, Feng, Li, Zhijun, Yu, Yanbao, Parnell, Scott E., and Xiong, Yue

Subjects

Ubiquitin -- Genetic aspects, Cell membranes -- Genetic aspects, Tetracyclines, Ligases -- Genetic aspects, Dwarfism, Health care industry

Abstract

3-M primordial dwarfism is an inherited disease characterized by severe pre- and postnatal growth retardation and by mutually exclusive mutations in 3 genes, CUL7, OBSL1, and CCDC8. The mechanism underlying 3-M dwarfism is not clear. We showed here that CCDC8, derived from a retrotransposon Gag protein in placental mammals, exclusively localized on the plasma membrane and was phosphorylated by CK2 and GSK3. Phosphorylation of CCDC8 resulted in its binding first with OBSL1, and then CUL7, leading to the membrane assembly of the 3-M E3 ubiquitin ligase complex. We identified LL5[beta], a plasma membrane protein that regulates cell migration, as a substrate of 3-M ligase. Wnt inhibition of CCDC8 phosphorylation or patient-derived mutations in 3-M genes disrupted membrane localization of the 3-M complex and accumulated LL5[beta]. Deletion of Ccdc8 in mice impaired trophoblast migration and placental development, resulting in intrauterine growth restriction and perinatal lethality. These results identified a mechanism regulating cell migration and placental development that underlies the development of 3-M dwarfism., Introduction 3-M syndrome (OMIM 273750, 612921, 614205) is a rare inherited disorder featured by severe pre- and postnatal growth retardation and was first described by Miller, McKusick, and Malvaux, and [...]

Published

2019

2. An alternatively spliced STING isoform localizes in the cytoplasmic membrane and directly senses extracellular cGAMP

Author

Li, Xiaobo, Zhu, Yuanyuan, Zhang, Xiao, An, Xiang, Weng, Mingjiao, Shi, Jiaqi, Wang, Song, Liu, Caiqi, Luo, Shengnan, and Zheng, Tongsen

Subjects

Interferon -- Genetic aspects -- Health aspects, Cyclic guanylic acid -- Genetic aspects -- Health aspects -- Physiological aspects, Immune response -- Health aspects -- Physiological aspects, Cell membranes -- Genetic aspects, Health care industry

Abstract

It has been revealed that 2'3'-cyclic-GMP-AMP (cGAMP), a second messenger that activates the antiviral stimulator of IFN genes (STING), elicits an antitumoral immune response. Since cGAMP cannot cross the cell membrane, it is not clear how intracellular STING has been activated by extracellular cGAMP until SLC19A1 was identified as an importer to transport extracellular cGAMP into the cytosol. However, SLC19A1-deficient cells also sense extracellular cGAMP, suggesting the presence of mechanisms other than the facilitating transporters for STING sensing extracellular cGAMP. Here, using immunoprecipitation, immunofluorescence, and flow cytometry, we identified an alternatively spliced STING isoform, plasmatic membrane STING (pmSTING), that localized in the plasma membrane with its C-terminus outside the cell, due to a lack of 1 transmembrane domain in its N-terminus compared with canonical STING. Further studies showed that extracellular cGAMP not only promoted the dimerization of pmSTING and interaction of pmSTING with TANK-binding kinase 1 (TBK1) and IFN regulatory factor 3 (IRF3), but also enhanced the phosphorylation of TBK1 and IRF3 and the production of IFN in pmSTING-transfected cells. Additionally, we also identified similar pmSTING isoforms in other species including human. This study suggests a conserved role for pmSTING in sensing extracellular cGAMP and provides insight into the role of cGAMP as an immunotransmitter., Introduction Although it was found as early as 1908 by Mechnikov that DNA can stimulate immune responses, the mechanisms regarding the immune response against DNA by immune cells remained unelucidated [...]

Published

2022

3. Neurodevelopmental disorder associated mutations in TAOK1 reveal its function as a plasma membrane remodeling kinase

Subjects

Cell membranes -- Genetic aspects, Physical fitness, Autism -- Genetic aspects, Health

Abstract

2022 JUL 23 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- According to news reporting based on a preprint abstract, our journalists obtained [...]

Published

2022

4. MAP4K4 determines cancer cell phenotype by controlling the plasma membrane-associated proteome

Subjects

Membrane proteins -- Genetic aspects, Cancer -- Genetic aspects, Cell membranes -- Genetic aspects, Physical fitness, Health

Abstract

2021 AUG 28 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- According to news reporting based on a preprint abstract, our journalists obtained [...]

Published

2021

5. New Cell Membrane Study Findings Have Been Reported from Field Crops Research Institute (Response of varied rice genotypes on cell membrane stability, defense system, physio-morphological traits and yield under transplanting and aerobic ...)

Subjects

Agricultural industry, Defense industry, Genotype -- Genetic aspects, Rice -- Genetic aspects, Crop yields, Cell membranes -- Genetic aspects, Defense industry, Biological sciences, Health

Abstract

2023 APR 25 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in cell membrane. According to news originating from the Field [...]

Published

2023

6. 10:15 AM - 12:15 PM Podium Session 5 STEM Education, Genetics, Taboo Words, and Whiskey Family Room--BTSU 208

Subjects

Cell membranes -- Genetic aspects, High school students -- Demographic aspects, Minority students -- Social aspects, Physiological regulation -- Health aspects, Science fairs (Education) -- Demographic aspects, Microbiota (Symbiotic organisms) -- Health aspects, Skeletal muscle -- Genetic aspects -- Health aspects, Fever -- Physiological aspects, Ecstasy (Drug) -- Health aspects, Genetic regulation, Education, Engineering and manufacturing industries, Science and technology

Abstract

10:15 - INCREASING MINORITY STEM PARTICIPATION THROUGH THE CREATION OF A SCIENCE FAIR PROGRAM FOR HIGH SCHOOL STUDENTS. Rickey C. Terrell (1), terrelrc@mail.uc.edu, (Greg Hollon, hollone@ucmail.uc.edu), University of Cincinnati, (1) [...]

Published

2018

7. Transcriptional diversity in synaptic gene sets is sufficient to discriminate cortical neuronal identity

Subjects

Neurons -- Genetic aspects, RNA sequencing -- Genetic aspects, Genetic transcription -- Genetic aspects, Cell membranes -- Genetic aspects, Biological sciences, Health

Abstract

2022 DEC 13 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- According to news reporting based on a preprint abstract, our journalists obtained the following [...]

Published

2022

8. Methadone alters transcriptional programs associated with synapse formation in human cortical organoids

Subjects

Central nervous system depressants, Neurosciences -- Genetic aspects, Genetic transcription -- Genetic aspects, Cell membranes -- Genetic aspects, Methadone hydrochloride, Health, Psychology and mental health

Abstract

2022 NOV 21 (NewsRx) -- By a News Reporter-Staff News Editor at Mental Health Weekly Digest -- According to news reporting based on a preprint abstract, our journalists obtained the [...]

Published

2022

9. Carnegie Institution for Science Researcher Releases New Study Findings on Nucleoproteins (High quality mapping of chromatin at or near the nuclear lamina from small numbers of cells reveals cell cycle and developmental changes of chromatin at ...)

Subjects

Chromatin -- Physiological aspects, Cell development (Biology) -- Genetic aspects, Cell cycle -- Genetic aspects, Cell membranes -- Genetic aspects, Biological sciences, Health

Abstract

2022 OCT 11 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- New study results on nucleoproteins have been published. According to news reporting originating from [...]

Published

2022

10. University of Minnesota Twin Cities Researcher Provides New Data on Muscle Proteins (Dystrophin missense mutations alter focal adhesion tension and mechanotransduction)

Subjects

Dystrophin -- Genetic aspects, Biochemistry -- Genetic aspects, Skin diseases -- Genetic aspects, Utrophin -- Genetic aspects, Cell membranes -- Genetic aspects, Health

Abstract

2022 JUL 22 (NewsRx) -- By a News Reporter-Staff News Editor at Health & Medicine Week -- Data detailed on muscle proteins have been presented. According to news reporting out [...]

Published

2022

11. The disconnect2 mutation disrupts the tjp1b gene that is required for electrical synapse formation

Subjects

Cell membranes -- Genetic aspects, Biological sciences, Health

Abstract

2022 JUL 12 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- According to news reporting based on a preprint abstract, our journalists obtained the following [...]

Published

2022

12. 'Cell Membrane Penetrating Conjugates For Gene Editing' in Patent Application Approval Process (USPTO 20220056483)

Subjects

Amino acids -- Intellectual property -- Genetic aspects, Cancer -- Care and treatment -- Genetic aspects, Cell membranes -- Genetic aspects, Biotechnology industry, Health, Science and technology

Abstract

2022 MAR 14 (NewsRx) -- By a News Reporter-Staff News Editor at Cancer Gene Therapy Week -- A patent application by the inventor SANGHAMITRA, Nusrat (Cork, IE), filed on August [...]

Published

2022

13. ESCRT-dependent targeting of plasma membrane localized KCa3.1 to the lysosomes

Author

Balut, Corina M., Gao, Yajuan, Murray, Sandra A., Thibodeau, Patrick H., and Devor, Daniel C.

Subjects

Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Research, Biological transport -- Physiological aspects, Biological transport -- Genetic aspects, Biological transport -- Research, Lysosomes -- Physiological aspects, Lysosomes -- Genetic aspects, Lysosomes -- Research, Biological sciences

Abstract

The number of intermediate-conductance, [Ca.sup.2+]-activated [K.sup.+] channels (KCa3.1) present at the plasma membrane is deterministic in any physiological response. However, the mechanisms by which KCa3.1 channels are removed from the plasma membrane and targeted for degradation are poorly understood. Recently, we demonstrated that KCa3.1 is rapidly internalized from the plasma membrane, having a short half-life in both human embryonic kidney cells (HEK293) and human microvascular endothelial cells (HMEC-1). In this study, we investigate the molecular mechanisms controlling the degradation of KCa3.1 heterologously expressed in HEK and HMEC-1 cells. Using immunofluorescence and electron microscopy, as well as quantitative biochemical analysis, we demonstrate that membrane KCa3.1 is targeted to the lysosomes for degradation. Furthermore, we demonstrate that either overexpressing a dominant negative Rab7 or short interfering RNA-mediated knockdown of Rab7 results in a significant inhibition of channel degradation rate. Coimmunoprecipitation confirmed a close association between Rab7 and KCa3.1. On the basis of these findings, we assessed the role of the ESCRT machinery in the degradation of heterologously expressed KCa3.1, including TSG101 [endosomal sorting complex required for transport (ESCRT)-I] and CHMP4 (ESCRT-III) as well as VPS4, a protein involved in the disassembly of the ESCRT machinery. We demonstrate that TSG 101 is closely associated with KCa3.1 via coimmunoprecipitation and that a dominant negative TSG101 inhibits KCa3.1 degradation. In addition, both dominant negative CHMP4 and VPS4 significantly decrease the rate of membrane KCa3.1 degradation, compared with wild-type controls. These results are the first to demonstrate that plasma membrane-associated KCa3.1 is targeted for lysosomal degradation via a Rab7 and ESCRT-dependent pathway. endocytosis; Rab7; lysosomes; endosomal sorting complex required for transport doi: 10.1152/ajpcell.00120.2010.

Published

2010

14. The KtrA and KtrE subunits are required for [Na.sup.+]-dependent [K.sup.+] uptake by KtrB across the plasma membrane in Synechocystis sp. strain PCC 6803

Author

Zulkifli, Lalu, Akai, Masaro, Yoshikawa, Asuka, Shimojima, Mie, Ohta, Hiroyuki, Guy, H. Robert, and Uozumi, Nobuyuki

Subjects

Cell membranes -- Chemical properties, Cell membranes -- Genetic aspects, Cyanobacteria -- Chemical properties, Cyanobacteria -- Genetic aspects, Biological sciences

Abstract

The [Na.sup.+]-dependent [K.sup.+] uptake KtrABE system is essential for the adaptation of Synechocystis to salinity stress and high osmolality. While KtrB forms the [K.sup.+]-translocating pore, the role of the subunits KtrA and KtrE for Ktr function remains elusive. Here, we characterized the role of KtrA and KtrE in Ktr-mediated [K.sup.+] uptake and in modulating [Na.sup.+] dependency. Expression of KtrB alone in a [K.sup.+] uptake-deficient Escherichia coli strain conferred low [K.sup.+] uptake activity that was not stimulated by [Na.sup.+]. Coexpression of both KtrA and KtrE with KtrB increased the [K.sup.+] transport activity in a [Na.sup.+]-dependent manner. KtrA and KtrE were found to be localized to the plasma membrane in Synechocystis. Site-directed mutagenesis was used to analyze the role of single charged residues in KtrB for Ktr function. Replacing negatively charged residues facing the extracellular space with residues of the opposite charge increased the apparent K, for [K.sup.+] in all cases. However, none of the mutations eliminated the [Na.sup.+] dependency of Ktr-mediated [K.sup.+] transport. Mutations of residues on the cytoplasmic side had larger effects on [K.sup.+] uptake activity than those of residues on the extracellular side. Further analysis revealed that replacement of R262, which is well conserved among Ktr/Trk/HKT transporters in the third extracellular loop, by Glu abolished transport activity. The atomic-scale homology model indicated that R262 might interact with E247 and D261. Based on these data, interaction of KtrA and KtrE with KtrB increased the [K.sup.+] uptake rate and conferred [Na.sup.+] dependency. doi: 10.1128/JB.00569-10

Published

2010

15. Phospholipase C-dependent [Ca.sup.2+]-sensing pathways leading to endocytosis and inhibition of the plasma membrane vacuolar [H.sup.+]-ATPase in osteoclasts

Author

Sakai, Hiromu, Moriura, Yoshie, Notomi, Takuya, Kawawaki, Junko, Ohnishi, Keiko, and Kuno, Miyuki

Subjects

Cell membranes -- Chemical properties, Cell membranes -- Genetic aspects, Phospholipases -- Chemical properties, Phospholipases -- Genetic aspects, Adenosine triphosphatase -- Chemical properties, Adenosine triphosphatase -- Genetic aspects, Endocytosis -- Research, Osteoclasts (Biology) -- Genetic aspects, Osteoclasts (Biology) -- Composition, Biological sciences

Abstract

In osteoclasts, elevation of extracellular [Ca.sup.2+] is an endogenous signal that inhibits bone resorption. We recently found that an elevation of extracellular [Ca.sup.2+] decreased proton extrusion through the plasma membrane vacuolar [H.sup.+]-ATPase (V-ATPase) rapidly. In this study we investigated mechanisms underlying this early [Ca.sup.2+]-sensing response, particularly in reference to the activity of the plasma membrane V-ATPase and to membrane retrieval. Whole cell clamp recordings allowed us to measure the V-ATPase currents and the cell capacitance ([C.sub.m]) simultaneously. Cm is a measure of cell surface. Extracellular [Ca.sup.2+] (2.5-40 mM) decreased [C.sub.m] and the V-ATPase current simultaneously. The decreased [C.sub.m], together with the enhanced uptake of a lipophilic dye (FM1-43), indicated that [Ca.sup.2+] facilitated endocytosis. The endocytosis was blocked by dynamin inhibitors (dynasore and dynamin-inhibitory peptide), by small interfering RNA (siRNA) targeting for dynanmin-2 and also by bafilomycin [A.sub.1], a blocker of V-ATPases. The extracellular [Ca.sup.2+]-induced endocytosis and inhibition of the V-ATPase current were diminished by a phospholipase C inhibitor (U73122) and siRNA targeting for phospholipase C [gamma]2 subunit. Holding the cytosolic [Ca.sup.2+] at either high (0.5-5 [micro]M) or low levels or inhibiting calmodulin by an inhibitor (W7) or an antibody (anti-CaM) decreased the stimulated endocytosis and the inhibition of the V-ATPase current. These data suggest that extracellular [Ca.sup.2+] facilitated dynamin- and V-ATPase-dependent endocytosis in association with an inhibition of the plasma membrane V-ATPase. Phospholipase C, cytosolic [Ca.sup.2+], and calmodulin were involved in the signaling pathways. Membrane retrieval and the plasma membrane V-ATPase activity may cooperate during the early phase of [Ca.sup.2+]-sensing response in osteoclasts. proton current; cell capacitance; dynamin; cytosolic [ca.sup.2+], calmodulin doi: 10.1152/ajpcell.00486.2009.

Published

2010

16. Systematic mapping of the state dependence of voltage- and [Ca.sup.2+]-dependent inactivation using simple open-channel measurements

Author

Tadross, Michael R. and Yue, David T.

Subjects

Bioelectrochemistry -- Research, Calcium channels -- Physiological aspects, Calcium channels -- Genetic aspects, Calcium channels -- Research, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Research, Biological sciences, Health

Abstract

Tim state from which channel inactivation occurs is both biologically and mechanistically critical. For example, preferential closed-state inactivation is potentiated in certain [Ca.sup.2+] channel splice variants, yielding an enhancement of inactivation during action potential trains, which has important consequences for short-term synaptic plasticity. Mechanistically, the structural substrates of inactivation are now being resolved, yielding a growing library of molecular snapshots, ripe for functional interpretation. For these reasons, there is an increasing need for experimentally direct and systematic means of determining the states from which inactivation proceeds. Although many approaches have been devised, most rely upon numerical models that require detailed knowledge of channel-state topology and gating parameters. Moreover, prior strategies have only addressed voltage-dependent forms of inactivation (VDI), and have not been readily applicable to [Ca.sup.2+]-dependent inactivation (CDI), a vital form of regulation in numerous contexts. Here, we devise a simple yet systematic approach, applicable to both VDI and CDI, for semiquantitative mapping of the states from which inactivation occurs, based only on open-channel measurements. The method is relatively insensitive to the specifics of channel gating and does not require detailed knowledge of state topology or gating parameters. Rather than numerical models, we derive analytic equations that permit determination of the states from which inactivation occurs, based on direct manipulation of data. We apply this methodology to both VDI and CDI of [Ca.sub.v]1.3 [Ca.sup.2+] channels. VDI is found to proceed almost exclusively from the open state. CDI proceeds equally from the open and nearby closed states, but is disfavored from deep closed states distant from the open conformation. In all, these outcomes substantiate and enrich conclusions of our companion paper in this issue (Tadross et al. 2010. J. Gen. Physiol. doi:10.1083/jgp.900910308) that deduces endpoint mechanisms of VDI and CDI in [Ca.sub.v]1.3. More broadly, the methods introduced herein can be readily generalized for the analysis of other channel types. www.jgp.org/cgi/doi/ 10.1085/jgp.200910309

Published

2010

17. Atg9a controls dsDNA-driven dynamic translocation of STING and the innate immune response

Author

Saitoh, Tatsuya, Fujita, Naonobu, Hayashi, Takuya, Takahara, Keigo, Satoh, Takashi, Lee, Hanna, Matsunaga, Kohichi, Kageyama, Shun, Omori, Hiroko, Noda, Takeshi, Yamamoto, Naoki, Kawai, Taro, Ishii, Ken, Takeuchi, Osamu, Yoshimori, Tamotsu, and Akira, Shizuo

Subjects

Translocation (Genetics) -- Research, Immune response -- Genetic aspects, Autophagy (Cytology) -- Research, Interferon -- Properties, Cell membranes -- Genetic aspects, Science and technology

Abstract

Microbial nucleic acids are critical for the induction of innate immune responses, a host defense mechanism against infection by microbes. Recent studies have indicated that double-stranded DNA (dsDNA) induces potent innate immune responses via the induction of type I IFN (IFN) and IFN-inducible genes. However, the regulatory mechanisms underlying dsDNA-triggered signaling are not fully understood. Here we show that the translocation and assembly of the essential signal transducers, stimulator of IFN genes (STING) and TANK-binding kinase 1 (TBK1), are required for dsDNA-triggered innate immune responses. After sensing dsDNA, STING moves from the endoplasmic reticulum (ER) to the Golgi apparatus and finally reaches the cytoplasmic punctate structures to assemble with TBK1. The addition of an ER-retention signal to the C terminus of STING dampens its ability to induce antiviral responses. We also show that STING co-localizes with the autophagy proteins, microtubule-associated protein 1 light chain 3 (LC3) and autophagy-related gene 9a (Atg9a), after dsDNA stimulation. The loss of Atg9a, but not that of another autophagy-related gene (Atg7), greatly enhances the assembly of STING and TBK1 by dsDNA, leading to aberrant activation of the innate immune response. Hence Atg9a functions as a regulator of innate immunity following dsDNA stimulation as well as an essential autophagy protein. These results demonstrate that dynamic membrane traffic mediates the sequential translocation and assembly of STING, both of which are essential processes required for maximal activation of the innate immune response triggered by dsDNA. autophagy-related gene | double-stranded DNA | interferon | membrane traffic doi/10.1073/pnas.0911267106

Published

2009

18. The association of the Arabidopsis Actin-Related Protein2/3 complex with cell membranes is linked to its assembly status but not its activation

Author

Kotchoni, Simeon O., Zakharova, Taya, Mallery, Eileen L., Le, Jie, El-Assal, Salah El-Din, and Szymanski, Daniel B.

Subjects

Arabidopsis thaliana -- Genetic aspects, Arabidopsis thaliana -- Physiological aspects, Cell membranes -- Genetic aspects, Actin -- Properties, Biological sciences, Science and technology

Published

2009

19. A genome-wide screen for genes affecting eisosomes reveals Nce102 function in sphingolipid signaling

Author

Frohlich, Florian, Moreira, Karen, Aguilar, Pablo S., Hubner, Nina C., Mann, Matthias, Walter, Peter, and Walther, Tobias C.

Subjects

Genomes -- Research, Sphingolipids -- Genetic aspects, Cell membranes -- Genetic aspects, Biological sciences

Abstract

The protein and lipid composition of eukaryotic plasma membranes is highly dynamic and regulated according to need. The sphingolipid-responsive Pkh kinases are candidates for mediating parts of this regulation, as they affect a diverse set of plasma membrane functions, such as cortical actin patch organization, efficient endocytosis, and eisosome assembly. Eisosomes are large protein complexes underlying the plasma membrane and help to sort a group of membrane proteins into distinct domains. In this study, we identify Nce102 in a genome-wide screen for genes involved in eisosome organization and Pkh kinase signaling. Nce102 accumulates in membrane domains at eisosomes where Pkh kinases also localize. The relative abundance of Nce102 in these domains compared with the rest of the plasma membrane is dynamically regulated by sphingolipids. Furthermore, Nce102 inhibits Pkh kinase signaling and is required for plasma membrane organization. Therefore, Nce102 might act as a sensor of sphingolipids that regulates plasma membrane function.

Published

2009

20. Plasma membrane [Ca.sup.2+]-ATPase isoform 4 antagonizes cardiac hypertrophy in association with calcineurin inhibition in rodents

Author

Wu, Xu, Chang, Baojun, Blair, N. Scott, Sargent, Michelle, York, Allen J., Robbins, Jeffrey, Shull, Gary E., and Molkentin, Jeffery D.

Subjects

Heart enlargement -- Control, Heart enlargement -- Research, Heart enlargement -- Diagnosis, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Research, Adenosine triphosphatase -- Physiological aspects, Adenosine triphosphatase -- Genetic aspects, Adenosine triphosphatase -- Research, Calcineurin -- Control, Calcineurin -- Research

Abstract

How [Ca.sup.2+]-dependent signaling effectors are regulated in cardiomyocytes, given the extreme cytoplasmic [Ca.sup.2+] concentration changes that underlie contraction, remains unknown. Cardiomyocyte plasma membrane [Ca.sup.2+]-ATPase (PMCA) extrudes [Ca.sup.2+] but has little effect on excitation-contraction coupling, suggesting its potential role in controlling [Ca.sup.2+]-dependent signaling effectors such as calcineurin. We generated cardiac-specific inducible PMCA4b transgenic mice that displayed normal global [Ca.sup.2+] transient and cellular contraction levels and reduced cardiac hypertrophy following transverse aortic constriction (TAC) or phenylephrine/Ang II infusion, but showed no reduction in exercise-induced hypertrophy. Transgenic mice were protected from decompensation and fibrosis following long-term TAC. The PMCA4b transgene reduced the hypertrophic augmentation associated with transient receptor potential canonical 3 channel overexpression, but not that associated with activated calcineurin. Furthermore, Pmca4 gene--targeted mice showed increased cardiac hypertrophy and heart failure events after TAC. Physical associations between PMCA4b and calcineurin were enhanced by TAC and by agonist stimulation of cultured neonatal cardiomyocytes. PMCA4b reduced calcineurin nuclear factor of activated T cell--luciferase activity after TAC and in cultured neonatal cardiomyocytes after agonist stimulation. PMCA4b overexpression inhibited cultured cardiomyocyte hypertrophy following agonist stimulation, but much less so in a [Ca.sup.2+] pumping--deficient PMCA4b mutant. Thus, Pmca4b likely reduces the local [Ca.sup.2+] signals involved in reactive cardiomyocyte hypertrophy via calcineurin regulation., Introduction Cardiac hypertrophy is typically characterized by an enlargement of the heart associated with an increase in cardiomyocyte cell volume. Hypertrophy occurs during postnatal development, in response to physiologic stimuli [...]

Published

2009

21. A novel method of ligand peptidomics to identify peptide ligands binding to AQP2-expressing plasma membranes and intracellular vesicles of rat kidney

Author

Lee, Yu-Jung, Choi, Hyo-Jung, Lim, Jung-Suk, Earm, Ji-Hyun, Lee, Byung-Heon, Kim, In-San, Frokiaer, Jorgen, Nielsen, Soren, and Kwon, Tae-Hwan

Subjects

Aquaporins -- Physiological aspects, Aquaporins -- Research, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Research, Biological sciences

Abstract

Aquaporin-2 (AQP2), the vasopressin-regulated water channel in collecting duct principal cells, plays a key role in the regulation of body water balance. We aimed to isolate high-affinity peptide ligands that bind to immunoisolated AQP2-expressing plasma membrane (PM) or intracellular vesicle (ICV) preparations from rat kidney by the in vitro phage display technique. Immunoblotting revealed that AQP2 was exclusively expressed in the immunoisolated AQP2 membrane fractions (PM and ICV), compared with the nonimmunoisolated or preimmune IgG pulldown rat kidney samples. Moreover, AQPI or [H.sup.+]-ATPase (B 1 subunit) expression was minimal in the immunoisolated AQP2 membrane fractions, indicating the specificity of AQP2 membrane isolation. A phage peptide library based on T7 415-1b phage vector displaying C[X.sub.7]C was constructed. After three rounds of biopanning, seven phage clones of high frequency were selected, which showed high affinity to the AQP2-containing PM or ICV fractions compared with a nonrecombinant T7 insertless phage clone. In contrast, these phage clones showed lower affinity to [H.sup.+]-ATPase-containing fractions. Fluorescein-conjugated peptide labeling was associated with intracellular compartment and PM of primary cultured inner medullary collecting duct cells, relative to absent or very weak labeling with fluorescein-conjugated control peptide. Library analyses demonstrated proteins that had motifs homologous to the peptide ligands, albeit with a high probability of a random match due to short peptide sequences. In summary, we applied the in vitro phage display technique to identify high-affinity peptide ligands to AQP2-expressing membranes. Library analyses identified proteins having homologous motifs, which need to be examined for involvement in AQP2 trafficking and regulation. aquaporin; phage display; urine concentration

Published

2008

22. Amino acid substitutions in the pore helix of GluR6 control inhibition by membrane fatty acids

Author

Wilding, Timothy J., Fulling, Elisabeth, Zhou, Yun, and Huettner, James E.

Subjects

Amino acids -- Properties, Fatty acids -- Properties, RNA -- Properties, Kainic acid -- Properties, Ion channels -- Genetic aspects, Mutation (Biology) -- Research, Cell membranes -- Properties, Cell membranes -- Genetic aspects, Biological sciences, Health

Abstract

RNA editing at the Q/R site in the GluR5 and GluR6 subunits of neuronal kainate receptors regulates channel inhibition by lipid-derived modulators including the cis-unsaturated fatty acids arachidonic acid and docosahexaenoic acid. Kainate receptor channels in which all of the subunits are in the edited (R) form exhibit strong inhibition by these compounds, whereas wild-type receptors that include a glutamine (Q) at the Q/R site in one or more subunits are resistant to inhibition. In the present study, we have performed an arginine scan of residues in the pore loop of the GluR6(Q) subunit. Amino acids within the range from -19 to +7 of the Q/R site of GluR6(Q) were individually mutated to arginine and the mutant cDNAs were expressed as homomeric channels in HEK 293 cells. All but one of the single arginine substitution mutants yielded functional channels. Only weak inhibition, typical of wild-type GluR6(Q) channels, was observed for substitutions +1 to +6 downstream of the Q/R site. However, arginine substitution at several locations upstream of the Q/R site resulted in homomeric channels exhibiting strong inhibition by fatty acids, which is characteristic of homomeric GluR6(R) channels. Based on homology with the pore loop of potassium channels, locations at which R substitution induces susceptibility to fatty acid inhibition face away from the cytoplasm toward the M1 and M3 helices and surrounding lipids.

Published

2008

23. TRPM7 facilitates cholinergic vesicle fusion with the plasma membrane

Author

Brauchi, Sebastian, Krapivinsky, Grigory, Krapivinsky, Luba, and Clapham, David E.

Subjects

Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Research, Ion channels -- Physiological aspects, Ion channels -- Research, Acetylcholine -- Physiological aspects, Science and technology

Abstract

TRPM7, of the transient receptor potential (TRP) family, is both an ion channel and a kinase. Previously, we showed that TRPM7 is located in the membranes of acetylcholine (ACh)-secreting synaptic vesicles of sympathetic neurons, forms a molecular complex with proteins of the vesicular fusion machinery, and is critical for stimulated neurotransmitter release. Here, we targeted pHluorin to small synaptic-like vesicles (SSLV) in PC12 cells and demonstrate that it can serve as a single-vesicle plasma membrane fusion reporter. In PC12 cells, as in sympathetic neurons, TRPM7 is located in ACh-secreting SSLVs. TRPM7 knockdown by siRNA, or abolishing channel activity by expression of a dominant negative TRPM7 pore mutant, decreased the frequency of spontaneous and voltage-stimulated SSLV fusion events without affecting large dense core vesicle secretion. We conclude that the conductance of TRPM7 across the vesicle membrane is important in SSLV fusion. acetylcholine | PC12 | pHluorin | transient receptor potential channels | single-vesicle fusion

Published

2008

24. Biogenesis of the fraction 1 capsule and analysis of the ultrastructure of Yersinia pestis

Author

Runco, Lisa M., Myrczek, Selina, Bliska, James B., and Thanassi, David G.

Subjects

Cell membranes -- Genetic aspects, Yersinia pestis -- Genetic aspects, Yersinia pestis -- Physiological aspects, Biological sciences

Abstract

Analysis of a Yersinia pestis [DELTA]caf1A mutant demonstrated that the Caf1A usher is required for the assembly and secretion of the fraction 1 capsule. The capsule assembled into thin fibrils and denser aggregates on the bacterial surface. Pilus-like fibers were also detected on the surface of Y. pestis. The capsule occasionally coated these fibers, suggesting how the capsule may cloak surface features to prevent host recognition.

Published

2008

25. Functional characterization of mouse urea transporters UT-A2 and UT-A3 expressed in purified Xenopus laevis oocyte plasma membranes

Author

MacIver, Bryce, Smith, Craig P., Hill, Warren G., and Zeidel, Mark L.

Subjects

Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Research, Oocytes -- Physiological aspects, Oocytes -- Genetic aspects, Oocytes -- Research, Urea -- Physiological aspects, Urea -- Research, Biological sciences

Abstract

Urea is a small solute synthesized by many terrestrial organisms as part of the catabolism of protein. In mammals it is transported across cellular membranes by specific urea transporter (UT) proteins that are the products of two separate, but closely related genes, referred to as UT-A and UT-B. Three major UT-A isoforms are found in the kidney, namely UT-A1, UT-A2, and UT-A3. UT-A2 is found in the thin, descending limb of the loop of Henle, whereas UT-A1 and UT-A3 are concentrated in the inner medullary collecting duct. UT-A2 and UT-A3 effectively represent two halves of the whole UT-A gene and, when joined together by 73 hydrophilic amino acids, constitute UT-A1. A biophysical characterization of mouse UT-A2 and UT-A3 was undertaken by expression in Xenopus laevis oocytes and subsequent preparation of highly enriched plasma membrane vesicles for use in stopped-flow fluorometry. Both isoforms were found to be highly specific for urea, and did not permeate water, ammonia, or other molecules closely related to urea (formamide, acetamide, methylurea, and dimethylutea). Single transporter flux rates of 46,000 [+ or -] 10,000 and 59,000 [+ or -] 15,000 (means [+ or -] SE) urea molecules/s/channel for UT-A2 and UT-A3, respectively, were obtained. Overall, the UT-A2 and UT-A3 isoforms appear to have identical functional kinetics. urea analog; flux; water permeability; stopped flow; functional kinetics

Published

2008

26. Transcriptome analysis of sorbic acid-stressed Bacillus subtilis reveals a nutrient limitation response and indicates plasma membrane remodeling

Author

Ter Beek, Alex, Keijser, Bart J.F., Boorsma, Andre, Zakrzewska, Anna, Orij, Rick, Smits, Gertien J., and Brul, Stanley

Subjects

Cell membranes -- Genetic aspects, Cell membranes -- Properties, Cell membranes -- Models, Bacillus subtilis -- Physiological aspects, Bacillus subtilis -- Genetic aspects, Sorbic acid -- Genetic aspects, Sorbic acid -- Properties, Sorbic acid -- Influence, Animal nutrition -- Genetic aspects, Animal nutrition -- Physiological aspects, Biological sciences

Abstract

The weak organic acid sorbic acid is a commonly used food preservative, as it inhibits the growth of bacteria, yeasts, and molds. We have used genome-wide transcriptional profiling of Bacillus subtilis cells during mild sorbic acid stress to reveal the growth-inhibitory activity of this preservative and to identify potential resistance mechanisms. Our analysis demonstrated that sorbic acid-stressed cells induce responses normally seen upon nutrient limitation. This is indicated by the strong derepression of the CcpA, CodY, and Fur regulon and the induction of tricarboxylic acid cycle genes, SigL- and SigH-mediated genes, and the stringent response. Intriguingly, these conditions did not lead to the activation of sporulation, competence, or the general stress response. The fatty acid biosynthesis (fab) genes and BkdR-regulated genes are upregulated, which may indicate plasma membrane remodeling. This was further supported by the reduced sensitivity toward thefab inhibitor cerulenin upon sorbic acid stress. We are the first to present a comprehensive analysis of the transcriptional response of B. subtilis to sorbic acid stress.

Published

2008

27. Levels of plasma membrane expression in progressive and benign mutations of the bile salt export pump (Bsep/Abcb11) correlate with severity of cholestatic diseases

Author

Lam, Ping, Pearson, Claire L., Soroka, Carol J., Xu, Shuhua, Mennone, Albert, and Boyer, James L.

Subjects

Cell membranes -- Genetic aspects, Gene mutations -- Research, Cholestasis -- Genetic aspects, Jaundice, Obstructive -- Genetic aspects, Biological sciences

Abstract

Human BSEP (ABCB11) mutations are the molecular basis for at least three clinical forms of liver disease, progressive familial intrahepatic cholestasis type 2 (PFIC2), benign recurrent intrahepatic cholestasis type 2 (BRIC2), and intrahepatic cholestasis of pregnancy (ICP). To better understand the pathobiology of these disease phenotypes, we hypothesized that different mutations may cause significant differences in protein defects. Therefore we compared the effect of two PFIC2 mutations (D482G, E297G) with two BRIC2 mutations (A570T and R1050C) and one ICP mutation (N591S) with regard to the subcellular localization, maturation, and function of the rat Bsep protein. Bile salt transport was retained in all but the E297G mutant. Mutant proteins were expressed at reduced levels on the plasma membrane of transfected HEK293 cells compared with wild-type (WT) Bsep in the following order: WT > N591S > R1050C ~ A570T ~ E297G >> D482G. Total cell protein and surface protein expression were reduced to the same extent, suggesting that trafficking of these mutants to the plasma membrane is not impaired. All Bsep mutants accumulate in perinuclear aggresome-like structures in the presence of the proteasome inhibitor MG-132, suggesting that mutations are associated with protein instability and ubiquitin-dependent degradation. Reduced temperature, sodium butyrate, and sodium 4-phenylbutyrate enhanced the expression of the mature and cell surface D482G protein in HEK293 cells. These results suggest that the clinical phenotypes of PFIC2, BRIC2, and ICP may directly correlate with the amount of mature protein that is expressed at the cell surface and that strategies to stabilize cell surface mutant protein may be therapeutic. ATP-binding cassette; progressive familial intrahepatic cholestasis type 2; benign recurrent intrahepatic cholestasis type 2; intrahepatic cholestasis of pregnancy; taurocholate transport

Published

2007

28. Spatio-temporal propagation of [Ca.sup.2+] signals by cyclic ADP-ribose in 3T3 cells stimulated via purinergic P2Y receptors

Author

Bruzzone, Santina, Kunerth, Svenja, Zocchi, Elena, De Flora, Antonio, and Guse, Andreas H.

Subjects

Adenosine diphosphate -- Physiological aspects, Calcium compounds -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Fibroblasts -- Genetic aspects, Fibroblasts -- Physiological aspects, Gene expression -- Physiological aspects, Genetic regulation -- Physiological aspects, Ribose -- Genetic aspects, Ribose -- Physiological aspects, Biological sciences

Abstract

The role of cyclic ADP-ribose in the amplification of subcellular and global [Ca.sup.2+] signaling upon stimulation of P2Y purinergic receptors was studied in 3T3 fibroblasts. Either (1) 3T3 fibroblasts (CD3[8.sup.-] cells), (2) 3T3 fibroblasts preloaded by incubation with extracellular cyclic ADP-ribose (cADPR), (3) 3T3 fibroblasts microinjected with ryanodine, or (4) 3T3 fibroblasts transfected to express the ADP-ribosyl cyclase CD38 (CD3[8.sup.+] cells) were used. Both preincubation with cADPR and CD38 expression resulted in comparable intracellular amounts of cyclic ADP-ribose (42.3 [+ or -] 5.2 and 50.5 [+ or -] 8.0 pmol/mg protein). P2Y receptor stimulation of CD38- cells yielded a small increase of intracellular [Ca.sup.2+] concentration and a much higher [Ca.sup.2+] signal in CD38-transfected cells, in cADPR-preloaded cells, or in cells microinjected with ryanodine. Confocal [Ca.sup.2+] imaging revealed that stimulation of ryanodine receptors by cADPR or ryanodine amplified localized pacemaker [Ca.sup.2+] signals with properties resembling [Ca.sup.2+] quarks and triggered the propagation of such localized signals from the plasma membrane toward the internal environment, thereby initiating a global [Ca.sup.2+] wave.

Published

2003

29. Distinct conformations of the kinesin Unc104 neck regulate a monomer to dimer motor transition

Author

Al-Bassam, Jawdat, Cui, Yujia, Klopfenstein, Dieter, Carragher, Bridget O., Vale, Ronald D., and Milligan, Ronald A.

Subjects

Bacteria -- Genetic aspects, Bacteria -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Cell research -- Analysis, Conformational analysis -- Usage, Gene mutations -- Physiological aspects, Genetic regulation -- Physiological aspects, Kinesin -- Genetic aspects, Kinesin -- Physiological aspects, Microtubules -- Genetic aspects, Microtubules -- Physiological aspects, Monomers -- Genetic aspects, Monomers -- Physiological aspects, Phenotype -- Genetic aspects, Solution (Chemistry) -- Physiological aspects, Biological sciences

Abstract

Caenhorhabditis elegans Uncl04 kinesin transports synaptic vesicles at rapid velocities. Unc104 is primarily monomeric in solution, but recent motility studies suggest that it may dimerize when concentrated on membranes. Using cryo-electron microscopy, we observe two conformations of microtubule-bound Unc104: a monomeric state in which the two neck helices form an intramolecular, parallel coiled coil; and a dimeric state in which the neck helices form an intermolecular coiled coil. The intramolecular folded conformation is abolished by deletion of a flexible hinge separating the neck helices, indicating that it acts as a spacer to accommodate the parallel coiled-coil configuration. The neck hinge deletion mutation does not alter motor velocity in vitro but produces a severe uncoordinated phenotype in transgenic C. elegans, suggesting that the folded conformation plays an important role in motor regulation. We suggest that the Unc104 neck regulates motility by switching from a self-folded, repressed state to a dimerized conformation that can support fast processive movement.

Published

2003

30. Allele frequency-based analyses robustly map sequence sites under balancing selection in a malaria vaccine candidate antigen

Author

Polley, Spencer D., Chokejindachai, Watcharee, and Conway, David J.

Subjects

Variation (Biology) -- Genetic aspects, Nucleotides -- Genetic aspects, Population genetics -- Research, Allelomorphism -- Genetic aspects, Cell membranes -- Genetic aspects, Plasmodium falciparum -- Genetic aspects, Immune response -- Genetic aspects, Genetic research -- Analysis, Biological sciences

Abstract

The Plasmodium falciparum apical membrane antigen 1 (AMA1) is a leading candidate for a malaria vaccine. Here, within-population analyses of alleles from 50 Thai P. falciparum isolates yield significant evidence for balancing selection on polymorphisms within the disulfide-bonded domains I and III of the surface accessible ectodomain of AMA1, a result very similar to that seen previously in a Nigerian population. Studying the frequency of nucleotide polymorphisms in both populations shows that the between-population component of variance ([F.sub.ST]) is significantly lower in domains I and III compared to the intervening domain II and compared to 11 unlinked microsatellite loci. A nucleotide site-by-site analysis shows that sites with exceptionally high or low [F.sub.ST] values cluster significantly into serial runs, with four runs of low values in domain I and one in domain III. These runs may map the sequences that are consistently under the strongest balancing selection from naturally acquired immune responses.

Published

2003

31. Identification and characterization of a fibronectin-binding protein from Clostridium difficile

Author

Hennequin, Claire, Janoir, Claire, Barc, Marie-Claude, Collignon, Anne, and Karjalainen, Tuomo

Subjects

Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell adhesion -- Physiological aspects, Cell adhesion -- Genetic aspects, Immunoblotting -- Analysis, Glutathione -- Physiological aspects, Glutathione -- Genetic aspects, Escherichia coli -- Physiological aspects, Escherichia coli -- Genetic aspects, Gene expression -- Physiological aspects, Fibronectins -- Physiological aspects, Fibronectins -- Genetic aspects, Microbiology -- Research, Biological sciences

Abstract

A 68 kDa fibronectin-binding protein (Fbp68) from Clostridium difficile displaying significant homology to several established or putative Fbps from other bacteria was identified. The one-copy gene is highly conserved in C. difficile isolates. Fbp68 was expressed in Escherichia coli in fusion with glutathione S-transferase; the fusion protein and the native Fbp68 were purified. Immunoblot analysis and cell fractionation experiments revealed that Fbp68 is present on the surface of the bacteria. Far-immuno dot-blotting demonstrated that Fbp68 was capable of fixing fibronectin. Indirect immunofluorescence and ELISA were employed to demonstrate that C. difficile could bind both soluble and immobilized fibronectin. With competitive adherence inhibition assays it was shown that antibodies raised against Fbp68 partially inhibited attachment of C. difficile to fibronectin and Vero cells. Furthermore, Vero cells could fix purified membrane-immobilized Fbp68. Thus Fbp68 appears to be one of the several adhesins identified to date in C. difficile.

Published

2003

32. Uncovering multiple axonal targeting pathways in hippocampal neurons

Author

Wisco, Dolora, Anderson, Eric D., Chang, Michael C., Norden, Caren, Boiko, Tatiana, Folsch, Heike, and Winckler, Bettina

Subjects

Axons -- Genetic aspects, Genetic regulation -- Physiological aspects, Cytoplasm -- Genetic aspects, Endocytosis -- Genetic aspects, Endocytosis -- Analysis, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Cell adhesion -- Physiological aspects, Cell adhesion -- Genetic aspects, Neurons -- Genetic aspects, Neurons -- Physiological aspects, Membrane proteins -- Genetic aspects, Membrane proteins -- Physiological aspects, Cytology -- Research, Biological sciences

Abstract

Neuronal polarity is, at least in part, mediated by the differential sorting of membrane proteins to distinct domains, such as axons and somata/dendrites. We investigated the pathways underlying the subcellular targeting of NgCAM, a cell adhesion molecule residing on the axonal plasma membrane. Following transport of NgCAM kinetically, surprisingly we observed a transient appearance of NgCAM on the somatodendritic plasma membrane. Down-regulation of endocytosis resulted in loss of axonal accumulation of NgCAM, indicating that the axonal localization of NgCAM was dependent on endocytosis. Our data suggest the existence of a dendrite-to-axon transcytotic pathway to achieve axonal accumulation. NgCAM mutants with a point mutation in a crucial cytoplasmic tail motif (YRSL) are unable to access the transcytotic route. Instead, they were found to travel to the axon on a direct route. Therefore, our results suggest that multiple distinct pathways operate in hippocampal neurons to achieve axonal accumulation of membrane proteins.

Published

2003

33. Direct measurement of Gag-Gag interaction during retrovirus assembly with FRET and fluorescence correlation spectroscopy

Author

Larson, Daniel R., Ma, Yu May, Vogt, Volker M., and Webb, Watt W.

Subjects

Cytosol -- Physiological aspects, Membrane proteins -- Genetic aspects, Fluorescence spectroscopy -- Usage, RNA -- Genetic aspects, Cell membranes -- Genetic aspects, Cytology -- Research, Biological sciences

Abstract

During retrovirus assembly, the polyprotein Gag directs protein multimerization, membrane binding, and RNA packaging. It is unknown whether assembly initiates through Gag-Gag interactions in the cytosol or at the plasma membrane. We used two fluorescence techniques--two-photon fluorescence resonance energy transfer and fluorescence correlation spectroscopy--to examine Rous sarcoma virus Gag-Gag and -membrane interactions in living cells. Both techniques provide strong evidence for interactions between Gag proteins in the cytoplasm. Fluorescence correlation spectroscopy measurements of mobility suggest that Gag is present in large cytosolic complexes, but these complexes are not entirely composed of Gag. Deletion of the nucleocapsid domain abolishes Gag interactions and membrane targeting. Deletion of the membrane-binding domain leads to enhanced cytosolic interactions. These results indicate that Gag-Gag interactions occur in the cytosol, are mediated by nucleocapsid domain, and are necessary for membrane targeting and budding. These methods also have general applicability to in vivo studies of protein-protein and -membrane interactions involved in the formation of complex macromolecular structures.

Published

2003

34. Membrane-bound hydrogenase and sulfur reductase of the hyperthermophilic and acidophilic archaeon Acidianus ambivalens

Author

Laska, Simone, Lottspeich, Friedrich, and Kletzin, Arnulf

Subjects

Sulfur -- Physiological aspects, Amino acids -- Physiological aspects, Enzymes -- Physiological aspects, Cytochrome c -- Genetic aspects, Cytochrome c -- Physiological aspects, Hydrogen -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Microbiology -- Research, Biological sciences

Abstract

A sulfur reductase (SR) and a hydrogenase were purified from solubilized membrane fractions of anaerobically grown cells of the sulfur-dependent archaeon Acidianus ambivalens and the corresponding genes were sequenced. The SR reduced elemental sulfur with hydrogen as electron donor [45 U [(mg protein).sup.-1]] in the presence of hydrogenase and either 2,3-dimethylnaphthoquinone (DMN) or cytochrome c in the enzyme assay. The SR could not be separated from the hydrogenase during purification without loss of activity, whereas the hydrogenase could be separated from the SR. The specific activity of the hydrogenase was 170 U [(mg protein).sup.-1] with methyl viologen and 833 U [(mg protein).sup.-1] with DMN as electron acceptors. Both holoenzymes showed molecular masses of 250 kDa. In SDS gels of active fractions, protein bands with apparent masses of 110 (SreA), 66 (HynL), 41 (HynS) and 29 kDa were present. Enriched hydrogenase fractions contained 14 [micro]mol Fe and 2 [micro]mol Ni [(g protein).sup.-1]; in addition, 2-5 [micro]mol Mo [(g protein).sup.-1] was found in the membrane fraction. Two overlapping genomic cosmid clones were sequenced, encoding a five-gene SR cluster (sre) including the 110 kDa subunit gene (sreA), and a 12-gene hydrogenase cluster (hyn) including the large and small subunit genes and genes encoding proteins required for the maturation of NiFe hydrogenases. A phylogenetic analysis of the SR amino acid sequence revealed that the protein belonged to the DMSO reductase family of molybdoenzymes and that the family showed a novel clustering. A model of sulfur respiration in Acidianus developed from the biochemical results and the data of the amino acid sequence comparisons is discussed.

Published

2003

35. A synthetic analysis of the Saccharomyces cerevisiae stress sensor Mid2p, and identification of a Mid2p-interacting protein, Zeo1p, that modulates the PKC1-MPK1 cell integrity pathway

Author

Green, Robin, Lesage, Guillaume, Sdicu, Anne-Marie, Menard, Patrice, and Bussey, Howard

Subjects

Bacterial proteins -- Physiological aspects, Bacterial proteins -- Genetic aspects, Gene expression -- Physiological aspects, Biosynthesis -- Analysis, Pheromones -- Physiological aspects, Pheromones -- Genetic aspects, Plant cell walls -- Physiological aspects, Plant cell walls -- Genetic aspects, Brewer's yeast -- Physiological aspects, Brewer's yeast -- Genetic aspects, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Membrane proteins -- Physiological aspects, Membrane proteins -- Genetic aspects, Microbiology -- Research, Biological sciences

Abstract

Mid2p is a plasma membrane protein that functions in Saccharomyces cerevisiae as a sensor of cell wall stress, activating the PKC1-MPK1 cell integrity pathway via the small GTPase Rho1p during exposure to mating pheromone, calcofluor white, and heat. To examine Mid2p signalling, a global synthetic interaction analysis of a mid2 mutant was performed; this identified 11 interacting genes. These include WSC1 and ROM2, upstream elements in cell integrity pathway signalling, and FKS1 and SMI1, required for 1,3-[beta]-glucan synthesis. These synthetic interactions indicate that the Wsc1p sensor acts through Rom2p to activate the Fks1p glucan synthase in a Mid2p-independent way. To further explore Mid2p signalling a two-hybrid screen was done using the cytoplasmic tail of Mid2p; this identified ZE01 (YOL109w), encoding a 12 kDa peripheral membrane protein that localizes to the plasma membrane. Disruption of ZEO1 leads to resistance to calcofluor white and to a Mid2p-dependent constitutive phosphorylation of Mpk1p, supporting a role for Zeo1p in the cell integrity pathway. Consistent with this, zeo1-deficient cells suppress the growth defect of mutants in the Rho1p GDP-GTP exchange factor Rom2p, while exacerbating the growth defect of sac7[DELTA] mutants at 37[degrees]C. In contrast, mid2[DELTA] mutants have opposing effects to zeo1[DELTA] mutants, being synthetically lethal with rom2[DELTA], and suppressing an 18[degrees]C growth defect of sac7[DELTA], while overexpression of MID2 rescues a rom2[DELTA] 37[degrees]C growth defect. Thus, MID2 and ZEO1 appear to play reciprocal roles in the modulation of the yeast PKC1-MPK1 cell integrity pathway.

Published

2003

36. Yeast two-hybrid system survey of interactions between LEE-encoded proteins of enteropathogenic Escherichia coli

Author

Creasey, Elizabeth A., Delahay, Robin M., Daniell, Sarah J., and Frankel, Gad

Subjects

Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Bacterial proteins -- Physiological aspects, Bacterial proteins -- Genetic aspects, Secretion -- Physiological aspects, Secretion -- Genetic aspects, Gram-negative bacteria -- Physiological aspects, Gram-negative bacteria -- Genetic aspects, Microbiology -- Research, Biological sciences

Abstract

Many Gram-negative pathogens employ a specific secretion pathway, termed type III secretion, to deliver virulence effector proteins directly to the membranes and cytosol of host eukaryotic cells. Subsequent functions of many effector proteins delivered in this manner result in subversion of host-signalling pathways to facilitate bacterial entry, survival and dissemination to neighbouring cells and tissues. Whereas the secreted components of type III secretion system (TTSSs) from different pathogens are structurally and functionally diverse, the structural components and the secretion apparatus itself are largely conserved. TTSSs are large macromolecular assemblies built through interactions between protein components of hundreds of individual subunits. The goal of this project was to screen, using the standard yeast two-hybrid system, pair-wise interactions between components of the enteropathogenic Escherichia coliTTSS. To this end 37 of the 41 genes encoded by the LEE pathogenicity island were cloned into both yeast two-hybrid system vectors and all possible permutations of interacting protein pairs were screened for. This paper reports the identification of 22 novel interactions, including interactions between innermembrane structural TTSS proteins; between the type III secreted translocator protein EspD and structural TTSS proteins; between established and putative chaperones and their cognate secreted proteins; and between proteins of undefined function.

Published

2003

37. Cholic acid accumulation and its diminution by short-chain fatty acids in bifidobacteria

Author

Kurdi, Peter, Tanaka, Hiroshi, van Veen, Hendrik W., Asano, Kozo, Tomita, Fusao, and Yokota, Atsushi

Subjects

Fatty acids -- Physiological aspects, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Hydrogen-ion concentration -- Physiological aspects, Dextrose -- Physiological aspects, Glucose -- Physiological aspects, Membrane proteins -- Physiological aspects, Membrane proteins -- Genetic aspects, Bifidobacterium -- Genetic aspects, Bifidobacterium -- Physiological aspects, Cholic acid -- Physiological aspects, Microbiology -- Research, Biological sciences

Abstract

Cholic acid (CA) transport was investigated in nine intestinal Bifidobacterium strains. Upon energization with glucose, all of the bifidobacteria accumulated CA. The driving force behind CA accumulation was found to be the transmembrane proton gradient ([DELTA]pH, alkaline interior). The levels of accumulated CA generally coincided with the theoretical values, which were calculated by the Henderson-Hasselbalch equation using the measured internal pH values of the bifidobacteria, and a p[k.sub.a] value of 6.4 for CA. These results suggest that the mechanism of CA accumulation is based on the diffusion of a hydrophobic weak acid across the bacterial cell membrane, and its dissociation according to the [DELTA]pH value. A mixture of short-chain fatty acids (acetate, propionate and butyrate) at the appropriate colonic concentration (117 mM in total) reduced CA accumulation in Bifidobacterium breve JCM [1192.sup.T]. These short-chain fatty acids, which are weak acids, reduced the [DELTA]pH, thereby decreasing CA accumulation in a dose-dependent manner. The bifidobacteria did not alter or modify the CA molecule. The probiotic potential of CA accumulation in vivo is discussed in relation to human bile acid metabolism.

Published

2003

38. Effect of EDTA on Salmonella enterica serovar Typhimurium involves a component not assignable to lipopolysaccharide release

Author

Alakomi, H.L., Saarela, M., and Helander, I.M.

Subjects

Magnesium -- Physiological aspects, Calcium compounds -- Physiological aspects, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Growth, Polysaccharides -- Physiological aspects, Salmonella typhimurium -- Physiological aspects, Salmonella typhimurium -- Genetic aspects, Salmonella typhimurium -- Growth, Microbiology -- Research, Company growth, Biological sciences

Abstract

The effect of EDTA on Salmonella enterica serovar Typhimurium was studied in different growth phases with cells grown with or without [Ca.sup.2+] and [Mg.sup.2+] supplementation. EDTA affected the outer membrane much more strongly in the early exponential phase than in the mid- or late exponential phase, as indicated by uptake of l-N-phenylnaphthylamine (a nonpolar hydrophobic probe, [M.sub.r]219), and detergent (SDS) susceptibility. This effect was, however, not paralleled by LPS release (determined by measuring LPS-specific fatty acids or [sup.14C]-labelled LPS in cell-free supernatants, per a standardized cell density), which remained unchanged as a function of the growth curve. The conclusion from these results is that in the early exponential phase the effect of EDTA in S. enterica involves a component that is independent of LPS release.

Published

2003

39. Role of Pseudomonas putida tol-oprL gene products in uptake of solutes through the cytoplasmic membrane

Author

Llamas, Maria A., Rodriguez-Herva, Jose J., Hancock, Robert E.W., Bitter, Wilbert, Tommassen, Jan, and Ramos, Juan L.

Subjects

Membrane proteins -- Genetic aspects, Glycerol -- Physiological aspects, Glycerin -- Physiological aspects, Arginine -- Physiological aspects, Fructose -- Physiological aspects, Pseudomonas -- Genetic aspects, Cytoplasm -- Genetic aspects, Cell membranes -- Genetic aspects, Gram-negative bacteria -- Genetic aspects, Gram-negative bacteria -- Growth, Bacterial proteins -- Genetic aspects, Bacteriology -- Research, Company growth, Biological sciences

Abstract

Proteins of the Tol-Pal (Tol-OprL) system play a key role in the maintenance of outer membrane integrity and cell morphology in gram-negative bacteria. Here we describe an additional role for this system in the transport of various carbon sources across the cytoplasmic membrane. Growth of Pseudomonas putida tol-oprL mutant strains in minimal medium with glycerol, fructose, or arginine was impaired, and the growth rate with succinate, proline, or sucrose as the carbon source was lower than the growth rate of the parental strain. Assays with radiolabeled substrates revealed that the rates of uptake of these compounds by mutant cells were lower than the rates of uptake by the wild-type strain. The pattern and amount of outer membrane protein in the P. putida tol-oprL mutants were not changed, suggesting that the transport defect was not in the outer membrane. Consistently, the uptake of radiolabeled glucose and glycerol in spheroplasts was defective in the P. putida tol-oprL mutant strains, suggesting that there was a defect at the cytoplasmic membrane level. Generation of a proton motive force appeared to be unaffected in these mutants. To rule out the possibility that the uptake defect was due to a lack of specific transporter proteins, the PutP symporter was overproduced, but this overproduction did not enhance proline uptake in the tol-oprL mutants. These results suggest that the Tol-OprL system is necessary for appropriate functioning of certain uptake systems at the level of the cytoplasmic membrane.

Published

2003

40. Regulation of phospholipase D1 subcellular cycling through coordination of multiple membrane association motifs

Author

Du, Guangwei, Altshuller, Yelena M., Vitale, Nicolas, Huang, Ping, Chasserot-Golaz, Sylvette, Morris, Andrew J., Bader, Marie-France, and Frohman, Michael A.

Subjects

Phospholipases -- Genetic aspects, Phospholipases -- Physiological aspects, Exocytosis -- Genetic aspects, Genetic regulation -- Analysis, Lipids -- Genetic aspects, Lipids -- Physiological aspects, Golgi apparatus -- Analysis, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Enzymes -- Physiological aspects, Enzymes -- Genetic aspects, Cytology -- Research, Biological sciences

Abstract

The signaling enzyme phospholipase D1 (PLD1) facilitates membrane vesicle trafficking. Here, we explore how PLD1 subcellular localization is regulated via Phox homology (PX) and pleckstrin homology (PH) domains and a PI4,5[P.sub.2]-binding site critical for its activation. PLD1 localized to perinuclear endosomes and Golgi in COS-7 cells, but on cellular stimulation, translocated to the plasma membrane in an activity-facilitated manner and then returned to the endosomes. The PI4,5[P.sub.2]-interacting site sufficed to mediate outward translocation and association with the plasma membrane. However, in the absence of PX and PH domains, PLD1 was unable to return efficiently to the endosomes. The PX and PH domains appear to facilitate internalization at different steps. The PH domain drives PLD1 entry into lipid rafts, which we show to be a step critical for internalization. In contrast, the PX domain appears to mediate binding to PI5P, a lipid newly recognized to accumulate in endocytosing vesicles. Finally, we show that the PH domain--dependent translocation step, but not the PX domain, is required for PLD1 to function in regulated exocytosis in PC12 cells. We propose that PLD1 localization and function involves regulated and continual cycling through a succession of subcellular sites, mediated by successive combinations of membrane association interactions.

Published

2003

41. PAK1 phosphorylation of MEK1 regulates fibronectin-stimulated MAPK activation

Author

Slack-Davis, Jill K., Eblen, Scott T., Zecevic, Maja, Boerner, Scott A., Tarcsafalvi, Adel, Diaz, H. Bruce, Marshall, Mark S., Weber, Michael J., Parsons, J. Thomas, and Catling, Andrew D.

Subjects

Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Cell membranes -- Growth, Integrins -- Genetic aspects, Integrins -- Physiological aspects, Growth factors -- Genetic aspects, Phosphorylation -- Physiological aspects, Cytology -- Research, Company growth, Biological sciences

Abstract

Activation of the Ras-MAPK signal transduction pathway is necessary for biological responses both to growth factors and ECM. Here, we provide evidence that phosphorylation of S298 of MAPK kinase 1 (MEK1) by p21-activated kinase (PAK) is a site of convergence for integrin and growth factor signaling. We find that adhesion to fibronectin induces PAKl-dependent phosphorylation of MEK1 on S298 and that this phosphorylation is necessary for efficient activation of MEK1 and subsequent MAPK activation. The rapid and efficient activation of MEK and phosphorylation on S298 induced by cell adhesion to fibronectin is influenced by FAK and Src signaling and is paralleled by localization of phospho-S298 MEK1 and phospho-MAPK staining in peripheral membrane-proximal adhesion structures. We propose that FAK/Src-dependent, PAK1-mediated phosphorylation of MEK1 on S298 is central to the organization and localization of active Raf-MEK1-MAPK signaling complexes, and that formation of such complexes contributes to the adhesion dependence of growth factor signaling to MAPK.

Published

2003

42. Activity of Rho-family GTPases during cell division as visualized with FRET-based probes

Author

Yoshizaki, Hisayoshi, Ohba, Yusuke, Kurokawa, Kazuo, Itoh, Reina E., Nakamura, Takeshi, Mochizuki, Naoki, Nagashima, Kazuo, and Matsuda, Michiyuki

Subjects

Genetic regulation -- Analysis, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Proteins -- Physiological aspects, Proteins -- Genetic aspects, Nucleotides -- Genetic aspects, Nucleotides -- Physiological aspects, Guanine -- Physiological aspects, Cell division -- Genetic aspects, Cell division -- Physiological aspects, Guanosine triphosphatase -- Genetic aspects, Guanosine triphosphatase -- Physiological aspects, Cytology -- Research, Biological sciences

Abstract

Rho-family GTPases regulate many cellular functions. To visualize the activity of Rho-family GTPases in living cells, we developed fluorescence resonance energy transfer (FRET)-based probes for Rac1 and Cdc42 previously (Itoh, R.E., K. Kurokawa, Y. Ohba, H. Yoshizaki, N. Mochizuki, and M. Matsuda. 2002. Mol. Cell. Biol. 22:6582-6591). Here, we added two types of probes for RhoA. One is to monitor the activity balance between guanine nucleotide exchange factors and GTPase-activating proteins, and another is to monitor the level of GTP-RhoA. Using these FRET probes, we imaged the activities of Rho-family GTPases during the cell division of HeLa cells. The activities of RhoA, Rac1, and Cdc42 were high at the plasma membrane in interphase, and decreased rapidly on entry into M phase. From after anaphase, the RhoA activity increased at the plasma membrane including cleavage furrow. Rac1 activity was suppressed at the spindle midzone and increased at the plasma membrane of polar sides after telophase. Cdc42 activity was suppressed at the plasma membrane and was high at the intracellular membrane compartments during cytokinesis. In conclusion, we could use the FRET-based probes to visualize the complex spatio-temporal regulation of Rho-family GTPases during cell division.

Published

2003

43. Dual function of Slit2 in repulsion and enhanced migration of trunk, but not vagal, neural crest cells

Author

De Bellard, Maria Elena, Rao, Yi, and Bronner-Fraser, Marianne

Subjects

Proteins -- Genetic aspects, Proteins -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Gene expression -- Physiological aspects, Neural crest -- Physiological aspects, Neural crest -- Genetic aspects, Cytology -- Research, Biological sciences

Abstract

Neural crest precursors to the autonomic nervous system form different derivatives depending upon their axial level of origin; for example, vagal, but not trunk, neural crest cells form the enteric ganglia of the gut. Here, we show that Slit2 is expressed at the entrance of the gut, which is selectively invaded by vagal, but not trunk, neural crest. Accordingly, only trunk neural crest cells express Robo receptors. In vivo and in vitro experiments demonstrate that trunk, not vagal, crest cells avoid cells or cell membranes expressing Slit2, thereby contributing to the differential ability of neural crest populations to invade and innervate the gut. Conversely, exposure to soluble Slit2 significantly increases the distance traversed by trunk neural crest cells. These results suggest that Slit2 can act bifunctionally, both repulsing and stimulating the motility of trunk neural crest cells.

Published

2003

44. Vacuole membrane fusion: [V.sub.0] functions after trans-SNARE pairing and is coupled to the [Ca.sup.2+]-releasing channel

Author

Bayer, Martin J., Reese, Christoph, Buhler, Susanne, Peters, Christopher, and Mayer, Andreas

Subjects

Gene mutations -- Physiological aspects, Lipids -- Genetic aspects, Lipids -- Physiological aspects, Membrane proteins -- Physiological aspects, Membrane proteins -- Genetic aspects, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Vacuoles -- Physiological aspects, Vacuoles -- Genetic aspects, Cytology -- Research, Biological sciences

Abstract

Pore models of membrane fusion postulate that cylinders of integral membrane proteins can initiate a fusion pore after conformational rearrangement of pore subunits. In the fusion of yeast vacuoles, V-ATPase [V.sub.0] sectors, which contain a central cylinder of membrane integral proteolipid subunits, associate to form a transcomplex that might resemble an intermediate postulated in some pore models. We tested the role of [V.sub.0] sectors in vacuole fusion. [V.sub.0] functions in fusion and proton translocation could be experimentally separated via the differential effects of mutations and inhibitory antibodies. Inactivation of the [V.sub.0] subunit Vph1p blocked fusion in the terminal reaction stage that is independent of a proton gradient. [DELTA]vph1 mutants were capable of docking and trans-SNARE pairing and of subsequent release of lumenal [Ca.sup.2+], but they did not fuse. The [Ca.sup.2+]-releasing channel appears to be tightly coupled to [V.sub.0] because inactivation of Vph1p by antibodies blocked [Ca.sup.2+] release. Vph1 deletion on only one fusion partner sufficed to severely reduce fusion activity. The functional requirement for Vph1p correlates to [V.sub.0] transcomplex formation in that both occur after docking and [Ca.sup.2+] release. These observations establish [V.sub.0] as a crucial factor in vacuole fusion acting downstream of trans-SNARE pairing.

Published

2003

45. Identification of synaptotagmin effectors via acute inhibition of secretion from cracked PC12 cells

Author

Tucker, Ward C., Edwardson, J. Michael, Bai, Jihong, Kim, Hyun-Jung, Martin, Thomas F.J., and Chapman, Edwin R.

Subjects

Cytoplasm -- Genetic aspects, Cytoplasm -- Physiological aspects, Gene expression -- Physiological aspects, Calcium compounds -- Physiological aspects, Secretion -- Physiological aspects, Secretion -- Genetic aspects, Neurons -- Physiological aspects, Neurons -- Genetic aspects, Cell membranes -- Physiological aspects, Cell membranes -- Genetic aspects, Genetic regulation -- Physiological aspects, Cytology -- Research, Biological sciences

Abstract

The synaptotagmins (syts) are a family of membrane proteins proposed to regulate membrane traffic in neuronal and nonneuronal cells. In neurons, the [Ca.sup.2+]-sensing ability of syt I is critical for fusion of docked synaptic vesicles with the plasma membrane in response to stimulation. Several putative [Ca.sup.2+]-syt effectors have been identified, but in most cases the functional significance of these interactions remains unknown. Here, we have used recombinant C2 domains derived from the cytoplasmic domains of syts I-XI to interfere with endogenous syt-effector interactions during [Ca.sup.2+]-triggered exocytosis from cracked PC12 cells. Inhibition was closely correlated with syntaxin-SNAP-25 and phosphatidylinositol 4,5-bisphosphate (PI[P.sub.2])--binding activity. Moreover, we measured the expression levels of endogenous syts in PC12 cells; the major isoforms are I and IX, with trace levels of VII. As expected, if syts I and IX function as [Ca.sup.2+] sensors, fragments from these isoforms blocked secretion. These data suggest that syts trigger fusion via their [Ca.sup.2+]-regulated interactions with t-SNAREs and PI[P.sub.2], target molecules known to play critical roles in exocytosis.

Published

2003

46. SigM, an extracytoplasmic function sigma factor of Bacillus subtilis, is activated in response to cell wall antibiotics, ethanol, heat, acid, and superoxide stress

Author

Thackray, Penny D. and Moir, Anne

Subjects

Acids -- Physiological aspects, Vancomycin -- Physiological aspects, Alcohol, Denatured -- Physiological aspects, Alcohol -- Physiological aspects, Bacillus subtilis -- Genetic aspects, Cell membranes -- Genetic aspects, Cell membranes -- Growth, Gene expression -- Physiological aspects, Gene mutations -- Physiological aspects, Microbial populations -- Genetic aspects, Bacteriology -- Research, Company growth, Biological sciences

Abstract

The extracytoplasmic function sigma M of Bacillus subtilis is required for normal cell growth under salt stress. It is expressed maximally during exponential growth and is further induced by the addition of 0.7 M NaCl. The promoter region of the sigM operon contains two promoters; one ([P.sub.A]) is sigma A dependent, and the other ([P.sub.M]) is sigma M dependent. These have been placed separately at the amy locus, directing expression of a lacZ reporter gene. Only the [P.sub.M] fusion responded to salt induction. This promoter, which was responsive to the level of active sigma M in the cell, was also induced by 5% ethanol, by vancomycin, bacitracin, or phosphomycin (inhibitors of cell wall biosynthesis; 2 [micro]g per ml), and by heat shock of 50[degrees]C for 10 min. It was very strongly induced by acid (pH 4.3) and 80 [micro]M paraquat, but after a 15- to 30-min delay. There was no induction by alkali (pH 9), 5 mM [H.sub.2][O.sub.2], the detergents 0.1% Triton X-100 and 0.1% Tween 20, or 50 [micro]M monensin. In addition to their reduced tolerance to salt, null mutants of sigM were unable to grow at pH 4.3 and lysed after exposure to 5% ethanol. Genes regulated by SigM were also tested for their response to pH 4.3, 5% ethanol, and 2 [micro]g of vancomycin per ml. Expression of the genes may have been activated by increased levels of sigma M, but at least some were also subject to additional controls, as they responded to one type of stress but not another. Expression of yrhJ, which encodes a cytochrome P450/NADPH reductase, was induced in response to acid and vancomycin, yraA expression was acid, ethanol, and vancomycin induced, whereas yjbD showed only ethanol induction. YraA protein was extremely important to acid survival--a mutation in yraA, like a sigM mutation, resulted in the failure of B. subtilis to grow at pH 4.3. Sigma M is therefore involved in maintaining membrane and cell wall integrity in response to several different stresses in exponential growth phase and is activated by such stresses.

Published

2003

47. Tertiary structure of bacterial murein: the scaffold model

Author

Dmitriev, Boris A., Toukach, Filip V., Schaper, Klaus-Jurgen, Holst, Otto, Rietschel, Ernst T., and Ehlers, Stefan

Subjects

Peptidoglycans -- Physiological aspects, Peptidoglycans -- Genetic aspects, Bacterial proteins -- Genetic aspects, Cell membranes -- Genetic aspects, Microbial populations -- Genetic aspects, Bacteriology -- Research, Biological sciences

Abstract

Although the chemical structure and physical properties of peptidoglycan have been elucidated for some time, the precise three-dimensional organization of murein has remained elusive. Earlier published computer simulations of the bacterial murein architecture modeled peptidoglycan strands in either a regular (D. Pink, J. Moeller, B. Quinn, M. Jericho, and T. Beveridge, J. Bacteriol. 182: 5925-5930, 2000) or an irregular (A. Koch, J. Theor. Biol. 204: 533-541, 2000) parallel orientation with respect to the plasma membrane. However, after integrating published experimental data on glycan chain length distribution and the degree of peptide side chain cross-linking into this computer simulation, we now report that the proposed planar network of murein appears largely dysfunctional. In contrast, a scaffold model of murein architecture, which assumes that glycan strands extend perpendicularly to the plasma membrane, was found to accommodate published experimental evidence and yield a viable stress-bearing matrix. Moreover, this model is in accordance with the well-established principle of murein assembly in vivo, i.e., sequential attachment of strands to the preexisting structure. For the first time, the phenomenon of division plane alternation in dividing bacteria can be reconciled with a computer model of the molecular architecture of murein.

Published

2003

48. Concentration and assembly of the division ring proteins FtsZ, FtsA, and ZipA during the Escherichia coli cell cycle

Author

Rueda, Sonsoles, Vicente, Miguel, and Mingorance, Jesus

Subjects

Cell division -- Genetic aspects, Cell cycle -- Genetic aspects, Cell membranes -- Genetic aspects, Escherichia coli -- Genetic aspects, Bacterial proteins -- Genetic aspects, Microbial populations -- Genetic aspects, Bacteriology -- Research, Biological sciences

Abstract

The concentration of the cell division proteins FtsZ, FtsA, and ZipA and their assembly into a division ring during the Escherichia coli B/r K cell cycle have been measured in synchronous cultures obtained by the membrane elution technique. Immunostaining of the three proteins revealed no organized structure in newly born cells. In a culture with a doubling time of 49 min, assembly of the Z ring started around minute 25 and was detected first as a two-dot structure that became a sharp band before cell constriction. FtsA and ZipA localized into a division ring following the same pattern and time course as FtsZ. The concentration (amount relative to total mass) of the three proteins remained constant during one complete cell cycle, showing that assembly of a division ring is not driven by changes in the concentration of these proteins. Maintenance of the Z ring during the process of septation is a dynamic energy-dependent event, as evidenced by its disappearance in cells treated with sodium azide.

Published

2003

49. Enhanced insulin sensitivity in mice lacking ganglioside GM3

Author

Yamashita, Tadashi, Hashiramoto, Akira, Haluzik, Martin, Mizukami, Hiroki, Beck, Shoshannah, Norton, Aaron, Kono, Marl, Tsuji, Shuichi, Daniotti, Jose Luis, Werth, Norbert, Sandhoff, Roger, Sandhoff, Konrad, and Proia, Richard L.

Subjects

Lipids -- Genetic aspects, Lipids -- Physiological aspects, Cell membranes -- Genetic aspects, Cell membranes -- Physiological aspects, Sialic acids -- Physiological aspects, Gene mutations -- Physiological aspects, Insulin resistance -- Physiological aspects, Diabetes -- Causes of, Gangliosides -- Genetic aspects, Gangliosides -- Physiological aspects, Phosphorylation -- Physiological aspects, Science and technology

Abstract

Gangliosides are sialic acid-containing glycosphingolipids that are present on all mammalian plasma membranes where they participate in recognition and signaling activities. We have established mutant mice that lack GM3 synthase (CMP-NeuAc:lactosylceramide [alpha]2,3-sialyltransferase; EC 2.4.99.-). These mutant mice were unable to synthesize GM3 ganglioside, a simple and widely distributed glycosphingolipid. The mutant mice were viable and appeared without major abnormalities but showed a heightened sensitivity to insulin. A basis for the increased insulin sensitivity in the mutant mice was found to be enhanced insulin receptor phosphorylation in skeletal muscle. Importantly, the mutant mice were protected from high-fat diet-induced insulin resistance. Our results show that GM3 ganglioside is a negative regulator of insulin signaling, making it a potential therapeutic target in type 2 diabetes.

Published

2003

50. An approach to electrical modeling of single and multiple cells

Author

Gowrishankar, Thiruvallur R. and Weaver, James C.

Subjects

Cell research -- Analysis, Cell membranes -- Genetic aspects, Science and technology

Abstract

Previous theoretical approaches to understanding effects of electric fields on cells have used partial differential equations such as Laplace's equation and cell models with simple shapes. Here we describe a transport lattice method illustrated by a didactic multicellular system model with irregular shapes. Each elementary membrane region includes local models for passive membrane resistance and capacitance, nonlinear active sources of the resting potential, and a hysteretic model of electroporation. Field amplification through current or voltage concentration changes with frequency, exhibiting significant spatial heterogeneity until the microwave range is reached, where cellular structure becomes almost 'electrically invisible.' In the time domain, membrane electroporation exhibits significant heterogeneity but occurs mostly at invaginations and cell layers with tight junctions. Such results involve emergent behavior and emphasize the importance of using multicellular models for understanding tissue-level electric field effects in higher organisms.

Published

2003