Your search keyword '"Sangeeta Nath"' showing total 22 results

1. Formin nanoclustering-mediated actin assembly during plant flagellin and DSF signaling

Author

Yansong Miao, He Sun, Tuan Minh Tran, Zhiming Ma, Liang Yang, Xiaolin Liu, Satyajit Mayor, Sangeeta Nath, School of Biological Sciences, and Singapore Centre for Environmental Life Sciences and Engineering (SCELSE)

Subjects

0301 basic medicine, Cell signaling, formin, Arabidopsis, Formins, macromolecular substances, Xanthomonas campestris, Models, Biological, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Bacterial Proteins, Cell Wall, Actin Nucleation, Cellulose, Cytoskeleton, Actin Remodeling, lcsh:QH301-705.5, Actin, Actin nucleation, biology, Chemistry, Pathogen-Associated Molecular Pattern Molecules, fungi, Actin remodeling, Biological sciences [Science], PAMP, biology.organism_classification, Actins, Cell biology, nanoclustering, 030104 developmental biology, actin remodeling, lcsh:Biology (General), Host-Pathogen Interactions, biology.protein, Nanoparticles, PTI, actin nucleation, 030217 neurology & neurosurgery, Flagellin, Protein Binding, Signal Transduction

Abstract

Plants respond to bacterial infection acutely with actin remodeling during plant immune responses. The mechanisms by which bacterial virulence factors (VFs) modulate plant actin polymerization remain enigmatic. Here, we show that plant-type-I formin serves as the molecular sensor for actin remodeling in response to two bacterial VFs: Xanthomonas campestris pv. campestris (Xcc) diffusible signal factor (DSF), and pathogen-associated molecular pattern (PAMP) flagellin in pattern-triggered immunity (PTI). Both VFs regulate actin assembly by tuning the clustering and nucleation activity of formin on the plasma membrane (PM) at the nano-sized scale. By being integrated within the cell-wall-PM-actin cytoskeleton (CW-PM-AC) continuum, the dynamic behavior and function of formins are highly dependent on each scaffold layer's composition within the CW-PM-AC continuum during both DSF and PTI signaling. Our results reveal a central mechanism for rapid actin remodeling during plant-bacteria interactions, in which bacterial signaling molecules fine tune plant formin nanoclustering in a host mechanical-structure-dependent manner. Ministry of Education (MOE) Nanyang Technological University Published version S.M. is supported by a Margdarshi Fellowship (IA/M/15/1/502018) from the DBT-Wellcome Trust Alliance and the Department of Atomic Energy (Government of India) under project no. RTI 4006 to National Centre for Biological Sciences, India. This study was supported by an NTU startup grant (M4081533) and the Singapore Ministry of Education (MOE) tiers 1 (RG32/20) and 3 (MOE2019-T3-1-012) to Y.M.

Published

2021

2. Green tea extract affects porcine ovarian cell apoptosis

Author

Sangeeta Nath, Katarína Michalcová, Miroslava Kačániová, Marek Halenár, Shubhadeep Roychoudhury, and Adriana Kolesárová

Subjects

Slovakia, Food Handling, Sus scrofa, Immunocytochemistry, Apoptosis, Green tea extract, Pharmacology, Camellia sinensis, Endocrinology, Steroid hormone secretion, Animals, Secretion, Cyclin B1, Cells, Cultured, Progesterone, Cell Proliferation, Granulosa Cells, Estradiol, biology, Plant Extracts, Chemistry, Ovary, Proliferating cell nuclear antigen, Plant Leaves, Dietary Supplements, biology.protein, Female, Animal Science and Zoology, Oxidation-Reduction, Abattoirs, Biomarkers, Animals, Inbred Strains, Developmental Biology, Hormone

Abstract

Green tea is a commonly used beverage and green tea extract is a common dietary herbal supplement manufactured into different over-the-counter products. The aim of this in vitro study was to examine the steroid hormone secretion (progesterone and 17-β estradiol), proliferation and apoptosis of porcine ovarian granulosa cells after addition of green tea extract. Granulosa cells were incubated with green tea extract at five doses (0.1, 1, 10, 100 and 200 μg/ml) and the release of hormones by granulosa cells was assessed by EIA after 24 h exposure. The presence of proliferation and apoptotic markers was assessed by immunocytochemistry. Secretion of steroid hormones was not affected by green tea extract at all the doses in comparison to control. Also, markers of proliferation (PCNA and cyclin B1) were not affected by green tea extract. However, the highest dose (200 μg/ml) of green tea extract used in this study increased the accumulation of apoptotic markers caspase-3 and p53 in granulosa cells. In conclusion, our results indicate the impact of green tea extract at the highest dose used in this study on ovarian apoptosis through pathway that includes activation of caspase-3 and p53. Potential stimulation of these intracellular regulators could induce the process of apoptosis in ovarian cells.

Published

2018

3. The bacterial quorum sensing signal DSF hijacksArabidopsis thalianasterol biosynthesis to suppress plant innate immunity

Author

Satyajit Mayor, Yingying Cheng, Sangeeta Nath, Tuan Minh Tran, Yansong Miao, Alexander Triebl, Xiao Han, Liang Yang, Federico Torta, Zhiming Ma, Markus R. Wenk, Ben-Qiang Gong, Jian-Feng Li, Junqi Wang, School of Biological Sciences, School of Chemical and Biomedical Engineering, and Singapore Centre for Environmental Life Sciences and Engineering (SCELSE)

Subjects

0106 biological sciences, 0301 basic medicine, Xanthomonas, Health, Toxicology and Mutagenesis, Endocytic cycle, Arabidopsis, Plant Science, Xanthomonas campestris, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), 03 medical and health sciences, Arabidopsis thaliana, Plant Immunity, Research Articles, Plant Diseases, Plasma membrane organization, Innate immune system, Ecology, biology, Chemistry, Arabidopsis Proteins, fungi, Cell Membrane, Biological sciences [Science], food and beverages, Quorum Sensing, Sterol homeostasis, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Clathrin, Immunity, Innate, Cell biology, Sterols, Quorum sensing, 030104 developmental biology, bacteria, Receptor clustering, Protein Kinases, 010606 plant biology & botany, Research Article, Flagellin, Signal Transduction

Abstract

This study highlights that DSF, the quorum sensing signal produced by bacterial phytopathogens, is able to directly modulate plant plasma membrane dynamics by interfering with host lipid profile and thereby, suppress plant immunity responses., Quorum sensing (QS) is a recognized phenomenon that is crucial for regulating population-related behaviors in bacteria. However, the direct specific effect of QS molecules on host biology is largely understudied. In this work, we show that the QS molecule DSF (cis-11-methyl-dodecenoic acid) produced by Xanthomonas campestris pv. campestris can suppress pathogen-associated molecular pattern–triggered immunity (PTI) in Arabidopsis thaliana, mediated by flagellin-induced activation of flagellin receptor FLS2. The DSF-mediated attenuation of innate immunity results from the alteration of FLS2 nanoclusters and endocytic internalization of plasma membrane FLS2. DSF altered the lipid profile of Arabidopsis, with a particular increase in the phytosterol species, which impairs the general endocytosis pathway mediated by clathrin and FLS2 nano-clustering on the plasma membrane. The DSF effect on receptor dynamics and host immune responses could be entirely reversed by sterol removal. Together, our results highlighted the importance of sterol homeostasis to plasma membrane organization and demonstrate a novel mechanism by which pathogenic bacteria use their communicating molecule to manipulate pathogen-associated molecular pattern–triggered host immunity.

Published

2020

4. Dynamic actin-mediated nano-scale clustering of CD44 regulates its meso-scale organization at the plasma membrane

Author

Nicolas Mateos, Akihiro Kusumi, Carlo Manzo, Sonja I. Buschow, Kenichi G. N. Suzuki, Sangeeta Nath, Satyajit Mayor, Parijat Sil, Maria F. Garcia-Parajo, Takahiro K. Fujiwara, and Gastroenterology & Hepatology

Subjects

Cytoplasm, Formins, ASCB WICB 50th Anniversary Favorite, Models, Biological, Cell Line, Extracellular matrix, Diffusion, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, Extracellular, Hierarchical organization, Animals, Humans, Receptor, Cytoskeleton, Molecular Biology, Actin, 030304 developmental biology, 0303 health sciences, biology, Chemistry, Cell Membrane, Cell Biology, Actomyosin, Transmembrane protein, Actins, Single Molecule Imaging, Membrane, Hyaluronan Receptors, Membrane protein, biology.protein, Biophysics, Nanoparticles, Intracellular, 030217 neurology & neurosurgery

Abstract

Transmembrane adhesion receptors at the cell surface, such as CD44, are often equipped with modules to interact with the extracellular-matrix(ECM) and the intra-cellular cytoskeletal machinery. CD44 has been recently shown to compartmentalize the membrane into domains by acting as membrane pickets, facilitating the function of signaling receptors. While spatial organization and diffusion studies of membrane proteins are usually conducted separately, here we combine observations of organization and diffusion by using high spatio-temporal resolution imaging on living cells to reveal a hierarchical organization of CD44. CD44 is present in a meso-scale meshwork pattern where it exhibits enhanced confinement and is enriched in nano-clusters of CD44 along its boundaries. This nanoclustering is orchestrated by the underlying cortical actin dynamics. Interaction with actin is mediated by specific segments of the intracellular-domain(ICD). This influences the organization of the protein at the nano-scale, generating a selective requirement for formin over Arp2/3-based actin-nucleation machinery. The extracellular-domain(ECD) and its interaction with elements of ECM do not influence the meso-scale organization, but may serve to reposition the meshwork with respect to the ECM. Taken together, our results capture the hierarchical nature of CD44 organization at the cell surface, with active cytoskeleton-templated nano-clusters localized to a meso-scale meshwork pattern.

Published

2019

5. Beneficial effects of increased lysozyme levels in Alzheimer's disease modelled in Drosophila melanogaster

Author

Hongyun Li, Katarina Kågedal, Kaj Blennow, Linnea Sandin, Ann-Christin Brorsson, Sangeeta Nath, Claudia S. Kielkopf, Henrik Zetterberg, Brett Garner, Camilla Janefjord, Linda Helmfors, Liza Bergkvist, and Camilla Nilsberth

Subjects

0301 basic medicine, Male, animal diseases, Medical Biotechnology (with a focus on Cell Biology (including Stem Cell Biology), Molecular Biology, Microbiology, Biochemistry or Biopharmacy), Disease, medicine.disease_cause, Eye, Biochemistry, chemistry.chemical_compound, 0302 clinical medicine, Melanogaster, lysozyme, Genetics, Mutation, biology, Brain, Alzheimer's disease, Drosophila melanogaster, Medical genetics, Drosophila, Female, Utvecklingsbiologi, Lysozyme, Alzheimer’s disease, Medical Genetics, medicine.medical_specialty, chemical and pharmacologic phenomena, Mice, Transgenic, Bioinformatik och systembiologi, amyloid-β, 03 medical and health sciences, Immune system, amyloid‐β, Alzheimer Disease, medicine, Animals, Humans, RNA, Messenger, Genetik, Medicinsk bioteknologi (med inriktning mot cellbiologi (inklusive stamcellsbiologi), molekylärbiologi, mikrobiologi, biokemi eller biofarmaci), Molecular Biology, Medicinsk genetik, Amyloid beta-Peptides, Bioinformatics and Systems Biology, Cell Biology, biochemical phenomena, metabolism, and nutrition, medicine.disease, biology.organism_classification, Peptide Fragments, Mice, Inbred C57BL, Editor's Choice, Disease Models, Animal, 030104 developmental biology, chemistry, bacteria, Muramidase, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Genetic polymorphisms of immune genes that associate with higher risk to develop Alzheimer’s disease (AD) have led to an increased research interest on the involvement of the immune system in AD pathogenesis. A link between amyloid pathology and immune gene expression was suggested in a genome-wide gene expression study of transgenic amyloid mouse models. In this study, the gene expression of lysozyme, a major player in the innate immune system, was found to be increased in a comparable pattern as the amyloid pathology developed in transgenic mouse models of AD. A similar pattern was seen at protein levels of lysozyme in human AD brain and CSF, but this lysozyme pattern was not seen in a tau transgenic mouse model. Lysozyme was demonstrated to be beneficial for different Drosophila melanogaster models of AD. In flies that expressed Aβ1-42 or AβPP together with BACE1 in the eyes, the rough eye phenotype indicative of toxicity was completely rescued by coexpression of lysozyme. In Drosophila flies bearing the Aβ1-42 variant with the Arctic gene mutation, lysozyme increased the fly survival and decreased locomotor dysfunction dose dependently. An interaction between lysozyme and Aβ1-42 in the Drosophila eye was discovered. We propose that the increased levels of lysozyme, seen in mouse models of AD and in human AD cases, were triggered by Aβ1-42 and caused a beneficial effect by binding of lysozyme to toxic species of Aβ1-42, which prevented these from exerting their toxic effects. These results emphasize the possibility of lysozyme as biomarker and therapeutic target for AD.

Published

2016

6. Protective properties of lysozyme on β-amyloid pathology: implications for Alzheimer disease

Author

Heather McCann, Linnea Sandin, Henrik Zetterberg, Livia Civitelli, Camilla Janefjord, Kaj Blennow, Glenda M. Halliday, Sangeeta Nath, Katarina Kågedal, Ann-Christin Brorsson, Linda Helmfors, and Andrea Boman

Subjects

Male, Pathology, Cell- och molekylärbiologi, Plaque, Amyloid, chemistry.chemical_compound, Tumor Cells, Cultured, Aged, 80 and over, Cell Death, Aβ aggregation, Brain, Middle Aged, 3. Good health, Aβ aggregation, Drosophila melanogaster, Neurology, Insect Proteins, Biomarker (medicine), Female, Drosophila, Alzheimer's disease, Lysozyme, Alzheimer disease, Locomotion, Adult, medicine.medical_specialty, Programmed cell death, Amyloid, tau Proteins, Biology, lcsh:RC321-571, mental disorders, medicine, Animals, Humans, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Neuroinflammation, Aged, Amyloid beta-Peptides, Innate immune system, Kemi, Biomarker, medicine.disease, Peptide Fragments, In vitro, chemistry, Chemical Sciences, Immunology, Muramidase, Cell and Molecular Biology

Abstract

The hallmarks of Alzheimer disease are amyloid-β plaques and neurofibrillary tangles accompanied by signs of neuroinflammation. Lysozyme is a major player in the innate immune system and has recently been shown to prevent the aggregation of amyloid-β1-40 in vitro. In this study we found that patients with Alzheimer disease have increased lysozyme levels in the cerebrospinal fluid and lysozyme co-localized with amyloid-β in plaques. In Drosophila neuronal co-expression of lysozyme and amyloid-β1-42 reduced the formation of soluble and insoluble amyloid-β species, prolonged survival and improved the activity of amyloid-β1-42 transgenic flies. This suggests that lysozyme levels rise in Alzheimer disease as a compensatory response to amyloid-β increases and aggregation. In support of this, in vitro aggregation assays revealed that lysozyme associates with amyloid-β1-42 and alters its aggregation pathway to counteract the formation of toxic amyloid-β species. Overall, these studies establish a protective role for lysozyme against amyloid-β associated toxicities and identify increased lysozyme in patients with Alzheimer disease. Therefore, lysozyme has potential as a new biomarker as well as a therapeutic target for Alzheimer disease.

Published

2015

7. Dynamic Actin Mediated Nanoclustering of Cd44 Regulates its Meso-Scale Organization at the Plasma Membrane

Author

Maria F. Garcia-Parajo, Takahiro K. Fujiwara, Parijat Sil, Akihiro Kusumi, Nicolas Mateos, Satyajit Mayor, and Sangeeta Nath

Subjects

Meso scale, Membrane, biology, Chemistry, CD44, Biophysics, biology.protein, Plasma, Actin

Published

2019

8. Molecular Modeling and Dynamics Simulation Analysis of KATNAL1 for Identification of Novel Inhibitor of Sperm Maturation

Author

Robin Das, Budheswar Dehury, Sangeeta Nath, Pratap Parida, Saurav Das, Sudipta Sankar Bora, Mahendra Kumar Modi, Chandrajit Dohutia, Kishore Sarma, Bibhas Deb, and Shubhadeep Roychoudhury

Subjects

0301 basic medicine, Male, Molecular model, Protein subunit, Quantitative Structure-Activity Relationship, Katanin, Biology, Molecular Dynamics Simulation, Bioinformatics, Ligands, Small Molecule Libraries, 03 medical and health sciences, Molecular dynamics, Adenosine Triphosphate, Drug Discovery, Humans, Homology modeling, Adenosine Triphosphatases, Binding Sites, Organic Chemistry, Contraceptive Agents, Male, General Medicine, Ligand (biochemistry), Computer Science Applications, Molecular Docking Simulation, Sperm Maturation, Cardenolides, 030104 developmental biology, Docking (molecular), Biophysics, biology.protein, Target protein, Protein Binding

Abstract

Background Hormone based birth control often causes various side effects. A recent study revealed that temporary infertility without changing hormone levels can be attained by inhibiting Katanin p60 ATPase-containing subunit A-like 1 protein (KATNAL1) which is critical for sperm maturation in the testes. Objective This study aimed at attaining the most energetically stable three dimensional (3D) structure of KATNAL1 protein using comparative modeling followed by screening of a ligand library of known natural spermicidal compounds for their binding affinity with KATNAL1. This in turn may inhibit the development of mature sperm in the seminiferous epithelium. Method A series of computational techniques were used for building the 3D structure of KATNAL1 which was further optimized by molecular dynamics (MD) simulation. For revealing the ATP binding mode of KATNAL1, docking study was carried out using the optimized model obtained from the MD simulation. The docking study was also employed to test the binding efficiency of the ligand library. Results Molecular docking study confirmed the ATP binding of KATNAL1 with various hydrophobic and hydrogen bond interactions. Binding efficiency of the ligand library suggested that calotropin, a cardenolide of Calotropis procera showed the highest binding efficiency against the target protein without toxicity. MD simulation of the docked complex validated the results of the docking study. Conclusion This study revealed the ATP binding mode of KATNAL1 and identified calotropin as a potential lead molecule against it showing high binding efficiency with good bioavailability and no mutagenicity. Further in vitro and in vivo bioassay of calotropin could facilitate the development of novel non-hormonal male-specific contraceptive in near future.

Published

2016

9. SAR11 bacteria linked to ocean anoxia and nitrogen loss

Author

Jieying Wu, Cory C. Padilla, Morten Larsen, Rex R. Malmstrom, Tanja Woyke, Piyush Ranjan, Frank J. Stewart, Konstantinos T. Konstantinidis, Neha Sarode, Samuel Deutsch, Benjamin K. Stone, Sangeeta Nath, Andrew S. Burns, Jennifer B. Glass, Luis M. Rodriguez-R, Bo Thamdrup, Despina Tsementzi, and Laura A. Bristow

Subjects

0301 basic medicine, Aquatic Organisms, Denitrification, Transcription, Genetic, Oxygen, chemistry.chemical_compound, Nitrate, Anaerobiosis, Phylogeny, Multidisciplinary, Genome, Ecology, Bacterial, Anoxic waters, Adaptation, Physiological, Single-Cell Analysis, Transcription, Oxidation-Reduction, Biogeochemical cycle, Nitrogen, General Science & Technology, Physiological, Oceans and Seas, 030106 microbiology, chemistry.chemical_element, Biology, Article, 03 medical and health sciences, Genetic, Nitrate Reductases, Botany, Genetics, Seawater, 14. Life underwater, Adaptation, Nitrogen cycle, Nitrites, Alphaproteobacteria, Ecological niche, Nitrates, Gene Expression Profiling, biology.organism_classification, 030104 developmental biology, chemistry, Genes, 13. Climate action, Genes, Bacterial, Bacteria, Genome, Bacterial

Abstract

Summary Bacteria of the SAR11 clade constitute up to one half of all microbial cells in the oxygen-rich surface ocean. DNA sequences from SAR11 are also abundant in oxygen minimum zones (OMZs) where oxygen falls below detection and anaerobic microbes play important roles in converting bioavailable nitrogen to N2 gas. Evidence for anaerobic metabolism in SAR11 has not yet been observed, and the question of how these bacteria contribute to OMZ biogeochemical cycling is unanswered. Here, we identify the metabolic basis for SAR11 activity in anoxic ocean waters. Genomic analysis of single cells from the world’s largest OMZ revealed diverse and previously uncharacterized SAR11 lineages that peak in abundance at anoxic depths, but are largely undetectable in oxygen-rich ocean regions. OMZ SAR11 contain adaptations to low oxygen, including genes for respiratory nitrate reductases (Nar). SAR11 nar genes were experimentally verified to encode proteins catalyzing the nitrite-producing first step of denitrification and constituted ~40% of all OMZ nar transcripts, with transcription peaking in the zone of maximum nitrate reduction rates. These results redefine the ecological niche of Earth’s most abundant organismal group and suggest an important contribution of SAR11 to nitrite production in OMZs, and thus to pathways of ocean nitrogen loss.

Published

2016

10. PKCζ Is Required for Microtubule-Based Motility of Vesicles Containing the ntcp Transporter

Author

M. Sawkat Anwer, Eustratios Bananis, Allan W. Wolkoff, Souvik Sarkar, John W. Murray, and Sangeeta Nath

Subjects

Endosome, Vesicle, Dynein, Motility, Cell Biology, Biology, Endocytosis, digestive system, Biochemistry, Cell biology, Structural Biology, Microtubule, Genetics, Kinesin, Molecular Biology, Intracellular

Abstract

Intracellular trafficking regulates the abundance and therefore activity of transporters present at the plasma membrane. The transporter, Na+-taurocholate co-transporting polypeptide (ntcp), is increased at the plasma membrane upon treatment of cells with cAMP, for which microtubules (MTs) are required and the PI3K pathway and PKCzeta have been implicated. However, trafficking of ntcp on MTs has not been demonstrated directly and the regulation and intracellular localization of ntcp is not well understood. Here, we utilize in vitro and whole-cell immunofluorescence microscopy assays to demonstrate that ntcp is present on intracellular vesicles that bind MTs and move bidirectionally, using kinesin-1 and dynein. These vesicles co-localize with markers for recycling endosomes and early but not late endosomes. They frequently undergo fission, providing a mechanism for the exclusion of ntcp from late endosomes. PI(3,4,5)P3 activates PKCzeta and enhances motility of the ntcp vesicles and overcomes the partial inhibition produced by a PI3-kinase inhibitor. Specific inhibition of PKCzeta blocks the motility of ntcp-containing vesicles but has no effect on late vesicles as shown both in vitro and in living cells transfected with ntcp-GFP. These data indicate that PKCzeta is required specifically for the intracellular movement of vesicles that contain the ntcp transporter.

Published

2006

11. Microtubule-Dependent Movement of Late Endocytic Vesicles In Vitro: Requirements for Dynein and Kinesin

Author

John W. Murray, Sangeeta Nath, Allan W. Wolkoff, Peter Satir, Richard J. Stockert, Eustratios Bananis, and Kristie Gordon

Subjects

Microtubule-associated protein, Dynein, Kinesins, Texas Red, Biology, Microtubules, Antibodies, chemistry.chemical_compound, Microtubule, Animals, Transport Vesicles, Molecular Biology, rab4 GTP-Binding Proteins, Molecular Motor Proteins, Vesicle, Asialoglycoprotein, Dyneins, rab7 GTP-Binding Proteins, Biological Transport, Articles, Dynactin Complex, Cell Biology, Rats, Cell biology, Endocytic vesicle, chemistry, rab GTP-Binding Proteins, Kinesin, Microtubule-Associated Proteins

Abstract

Our previous studies demonstrated that fluorescent early endocytic vesicles prepared from rat liver after injection of Texas red asialoorosomucoid contain asialoglycoprotein and its receptor and move and undergo fission along microtubules using kinesin I and KIFC2, with Rab4 regulating KIFC2 activity (J. Cell Sci. 116, 2749, 2003). In the current study, procedures to prepare fluorescent late endocytic vesicles were devised. In addition, flow cytometry was utilized to prepare highly purified fluorescent endocytic vesicles, permitting validation of microscopy-based experiments as well as direct biochemical analysis. These studies revealed that late vesicles bound to and moved along microtubules, but in contrast to early vesicles, did not undergo fission. As compared with early vesicles, late vesicles had reduced association with receptor, Rab4, and kinesin I but were highly associated with dynein, Rab7, dynactin, and KIF3A. Dynein and KIF3A antibodies inhibited late vesicle motility, whereas kinesin I and KIFC2 antibodies had no effect. Dynamitin antibodies prevented the association of late vesicles with microtubules. These results indicate that acquisition and exchange of specific motor and regulatory proteins characterizes and may regulate the transition of early to late endocytic vesicles. Flow cytometric purification should ultimately facilitate detailed proteomic analysis and mapping of endocytic vesicle-associated proteins.

Published

2004

12. Establishment of callus and cell suspension cultures of Centella asiatica

Author

Alak Kumar Buragohain and Sangeeta Nath

Subjects

chemistry.chemical_classification, Chromatography, food.ingredient, Centella, biology, Chemistry, fungi, Plant Science, Horticulture, biology.organism_classification, High-performance liquid chromatography, Suspension culture, Thin-layer chromatography, food, Auxin, Callus, Herb

Abstract

Methods for induction of callus and cell suspension cultures have been developed for the medicinally important herb Centella asiatica (L.) Urban. Thin layer chromatography (TLC) and high performance liquid chromatography (HPLC) analysis showed the presence of asiaticoside in the in vitro grown leaves, callus and cell suspension cultured cells.

Published

2005

13. Proteasome inhibition induces stress kinase dependent transport deficits--implications for Alzheimer's disease

Author

Martin Hallbeck, Sangeeta Nath, Jakob Domert, Katarina Kågedal, Lotta Agholme, and Jan Marcusson

Subjects

MAPK/ERK pathway, Leupeptins, MAP Kinase Kinase 4, tau Proteins, Axonal Transport, Microtubules, Cellular and Molecular Neuroscience, Cyclin-dependent kinase, Microtubule, Alzheimer Disease, Cell Line, Tumor, medicine, Neurites, Humans, Phosphorylation, Protein kinase A, Molecular Biology, Mitogen-Activated Protein Kinase 1, Mitogen-Activated Protein Kinase 3, biology, Kinase, c-jun, Cell Biology, Cell biology, Proteasome, Biochemistry, biology.protein, Proteasome inhibitor, Proteasome Inhibitors, medicine.drug

Abstract

Alzheimer's disease (AD) is characterized by accumulation of two misfolded and aggregated proteins, β-amyloid and hyperphosphorylated tau. Both cellular systems responsible for clearance of misfolded and aggregated proteins, the lysosomal and the proteasomal, have been shown to be malfunctioning in the aged brain and more so in patients with neurodegenerative diseases, including AD. This malfunction could be contributing to β-amyloid and tau accumulation, eventually aggregating in plaques and tangles. We have investigated the impact of decreased proteasome activity on tau phosphorylation as well as on microtubule stability and transport. To do this, we used our recently developed neuronal model where human SH-SY5Y cells obtain neuronal morphology and function through differentiation. We found that exposure to low doses of the proteasome inhibitor MG-115 caused tau phosphorylation, microtubule destabilization and disturbed neuritic transport. Furthermore, reduced proteasome activity activated several proteins implicated in tau phosphorylation and AD pathology, including c-Jun N-terminal kinase, c-Jun and extracellular signal-regulated protein kinase (ERK) 1/2. Restoration of the microtubule transport was achieved by inhibiting ERK 1/2 activation, and simultaneous inhibition of both ERK 1/2 and c-Jun reversed the proteasome inhibition-induced tau phosphorylation. Taken together, this study suggests that a decrease in proteasome activity can, through activation of c-Jun and ERK 1/2, result in several events related to neurodegenerative diseases. Restoration of proteasome activity or modulation of ERK 1/2 and c-Jun function can open new treatment possibilities against neurodegenerative diseases such as AD.

Published

2013

14. Neuron-to-neuron transmission of neurodegenerative pathology

Author

Jan Marcusson, Sangeeta Nath, and Martin Hallbeck

Subjects

Pathology, medicine.medical_specialty, Models, Neurological, tau Proteins, Disease, Biology, Neurotransmission, Mental functions, Synaptic Transmission, Mice, β amyloid, Alzheimer Disease, medicine, Animals, Humans, Amyloid beta-Peptides, Mechanism (biology), General Neuroscience, Neurodegeneration, Neurodegenerative Diseases, medicine.disease, Rats, medicine.anatomical_structure, Neurology (clinical), Neuron, Neurodegenerative dementia, Neuroscience

Abstract

One of the hallmarks of neurodegenerative dementia diseases is the progressive loss of mental functions and the ability to manage activities of daily life. This progression is caused by the spread of the disease to more and more brain areas via anatomical connections. The pathophysiological process responsible for this spread of disease has long been sought after. There has been an increased understanding that the driving force of these neurodegenerative diseases could be the small, soluble intraneuronal accumulations of neurodegenerative proteins rather than the large, extracellular accumulations. Recently we have shown that the mechanism of spread of Alzheimer’s disease most likely depends on the neuron-to-neuron spread of such soluble intraneuronal accumulations of β-amyloid through neuritic connections. Similar transmissions have been shown for several other neurodegenerative proteins but little is known about the cellular mechanisms and about any potential strategies that might stop this spread. Resolving these questions requires good cellular models. We have established a unique model of synaptic transmission between human neuronal-like cells, something that has previously been difficult to target. This opens the possibility of developing potential inhibitors of progression of these devastating diseases.

Published

2013

15. Lipidation of the LC3/GABARAP family of autophagy proteins relies on a membrane-curvature-sensing domain in Atg3

Author

Wendy M. Fong, Thomas J. Melia, Julia Dancourt, Ai Yamamoto, Sangeeta Nath, Gabriella Puente, Joerg Bewersdorf, Bruno Antonny, Vladimir Shteyn, and Shanta Nag

Subjects

Autophagosome, ATG8, Autophagosome maturation, GABARAP, Amino Acid Motifs, Autophagy-Related Proteins, Lipid-anchored protein, Ubiquitin-Activating Enzymes, Biology, Transfection, Autophagy-Related Protein 7, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Stress, Physiological, LC3, Animals, Humans, 030304 developmental biology, Adaptor Proteins, Signal Transducing, Phosphatidylethanolamine, Mice, Knockout, 0303 health sciences, Curvature, Phosphatidylethanolamines, Autophagy, Cell Membrane, Microfilament Proteins, Membrane Proteins, Cell Biology, Autophagy-Related Protein 8 Family, Cell biology, Rats, GABARAP-L1, Cytoskeletal Proteins, chemistry, Membrane curvature, Liposomes, Mutation, Ubiquitin-Conjugating Enzymes, Atg3, Apoptosis Regulatory Proteins, Hydrophobic and Hydrophilic Interactions, Microtubule-Associated Proteins, 030217 neurology & neurosurgery, HeLa Cells, Signal Transduction

Abstract

The protein biochemistry supporting autophagosome growth on the cup-like isolation membrane is likely different from the biochemistry on the closed and maturing autophagosome. Thus, the highly curved rim of the cup may serve as a functionally-required surface for transiently-associated components of the early-acting autophagic machinery. Here we demonstrate that the E2-like enzyme, Atg3, facilitates LC3/GABARAPlipidation only on membranes exhibiting local lipid-packing defects. This activity requires an amino-terminal amphipathic helix similar to motifs found on proteins targeting highly curved intracellular membranes. By tuning the hydrophobicity of this motif, we can promote or inhibit lipidation in vitro and in rescue experiments in Atg3 knockout cells, implying a physiologic role for this stress detection. The need for extensive lipid-packing defects suggests that Atg3 is designed to work at highly-curved membranes perhaps including the limiting edge of the growing phagophore.

Published

2013

16. In Vitro Method for Propagation of Centella asiatica (L) Urban by Shoot Tip Culture

Author

Sangeeta Nath and Alak Kumar Buragohain

Subjects

Centella, Basal medium, biology, Inoculation, Plant Science, Vermiculite, biology.organism_classification, Horticulture, Murashige and Skoog medium, Root length, Micropropagation, Botany, Shoot, Agronomy and Crop Science, Biotechnology

Abstract

A rapid clonal propagation system has been developed for the medicinally important herb Centella asiatica (L) Urban by shoot tip (2–3 cm long) culture. The shoot tips isolated from mature plants were inoculated on MS medium incorporated with BA alone or in combination with NAA and Kn. The optimum number of shoots (3.38) with optimum number of leaves per shoot (4.25) were attained on MS medium supplemented with 4.0 mg l−1 BA and 0.1 mg l−1 NAA. On transferring the microshoots on full strength MS medium supplemented with various concentrations of IBA (1.0-3.0 mg l−1) and NAA (0.5-2.0 mg l−1), profuse rooting (46.8 per shoot) was obtained in MS basal medium with 2.0 mg l−1 IBA with root length of 19.7 cm. Well rooted plantlets were acclimatized successfully by adjusting the temperature and humidity for 3–4 weeks after transfer to pots filled with sterilized vermiculite soil: sand (1:1)mixture. This micropropgation protocol could be useful for raising a stock of genetically homogenous material for field cultivation within a very short period.

Published

2003

17. Spreading of neurodegenerative pathology via neuron-to-neuron transmission of β-amyloid

Author

Martin Hallbeck, Lotta Agholme, Björn Granseth, Jan Marcusson, Sangeeta Nath, and Firoz Roshan Kurudenkandy

Subjects

Male, Pathology, Patch-Clamp Techniques, Time Factors, Tetrazolium Salts, Neocortex, Cell Communication, Hippocampal formation, Hippocampus, Synaptic Transmission, Rats, Sprague-Dawley, Neuroblastoma, Cognitive decline, Cells, Cultured, Neurons, Membrane Glycoproteins, General Neuroscience, Neurodegeneration, Cell Differentiation, Articles, Endocytosis, medicine.anatomical_structure, Female, Heterocyclic Compounds, 3-Ring, Neuroglia, Intracellular, medicine.medical_specialty, Neurite, Microinjections, Green Fluorescent Proteins, Nerve Tissue Proteins, Neurotransmission, Biology, Transfection, Exocytosis, Microscopy, Electron, Transmission, Lysosomal-Associated Membrane Protein 2, medicine, Dementia, Animals, Humans, rab5 GTP-Binding Proteins, Amyloid beta-Peptides, Dose-Response Relationship, Drug, Rhodamines, Dendrites, medicine.disease, Coculture Techniques, Peptide Fragments, Rats, Thiazoles, Animals, Newborn, Nerve Degeneration, Neuron, Neuroscience

Abstract

Alzheimer's disease (AD) is the major cause of dementia. During the development of AD, neurofibrillary tangles progress in a fixed pattern, starting in the transentorhinal cortex followed by the hippocampus and cortical areas. In contrast, the deposition of β-amyloid (Aβ) plaques, which are the other histological hallmark of AD, does not follow the same strict spatiotemporal pattern, and it correlates poorly with cognitive decline. Instead, soluble Aβ oligomers have received increasing attention as probable inducers of pathogenesis. In this study, we use microinjections into electrophysiologically defined primary hippocampal rat neurons to demonstrate the direct neuron-to-neuron transfer of soluble oligomeric Aβ. Additional studies conducted in a human donor–acceptor cell model show that this Aβ transfer depends on direct cellular connections. As the transferred oligomers accumulate, acceptor cells gradually show beading of tubulin, a sign of neurite damage, and gradual endosomal leakage, a sign of cytotoxicity. These observations support that intracellular Aβ oligomers play a role in neurodegeneration, and they explain the manner in which Aβ can drive disease progression, even if the extracellular plaque load is poorly correlated with the degree of cognitive decline. Understanding this phenomenon sheds light on the pathophysiological mechanism of AD progression. Additional elucidation will help uncover the detailed mechanisms responsible for the manner in which AD progresses via anatomical connections and will facilitate the development of new strategies for stopping the progression of this incapacitating disease.

Published

2012

18. Identification of fluorescent compounds with non-specific binding property via high throughput live cell microscopy

Author

Joel M. Hyman, Ju Han, Hang Chang, Virginia A. Spencer, Young-Tae Chang, Gerald V. Fontenay, Bahram Parvin, Sangeeta Nath, Charles T. Anderson, Marit Nilsen-Hamilton, and Kai Zhang

Subjects

Fluorescence-lifetime imaging microscopy, Cell Survival, Structural similarity, Plant Cell Biology, Arabidopsis, lcsh:Medicine, Biological Data Management, Plant Science, Ligands, Bioinformatics, Biochemistry, Cell Line, Small Molecule Libraries, Mice, Computational Chemistry, Chemical Biology, Molecular Cell Biology, Intracellular receptor, Animals, Combinatorial Chemistry Techniques, Humans, lcsh:Science, Biology, Fluorescent Dyes, Microscopy, Multidisciplinary, Ligand, Chemistry, lcsh:R, Computational Biology, Fluorescence, Cellular Structures, Mammalogy, Small Molecules, Biophysics, lcsh:Q, Cellular Types, Zoology, Function (biology), Intracellular, Research Article, Biotechnology

Abstract

Introduction Compounds exhibiting low non-specific intracellular binding or non-stickiness are concomitant with rapid clearing and in high demand for live-cell imaging assays because they allow for intracellular receptor localization with a high signal/noise ratio. The non-stickiness property is particularly important for imaging intracellular receptors due to the equilibria involved. Method Three mammalian cell lines with diverse genetic backgrounds were used to screen a combinatorial fluorescence library via high throughput live cell microscopy for potential ligands with high in- and out-flux properties. The binding properties of ligands identified from the first screen were subsequently validated on plant root hair. A correlative analysis was then performed between each ligand and its corresponding physiochemical and structural properties. Results The non-stickiness property of each ligand was quantified as a function of the temporal uptake and retention on a cell-by-cell basis. Our data shows that (i) mammalian systems can serve as a pre-screening tool for complex plant species that are not amenable to high-throughput imaging; (ii) retention and spatial localization of chemical compounds vary within and between each cell line; and (iii) the structural similarities of compounds can infer their non-specific binding properties. Conclusion We have validated a protocol for identifying chemical compounds with non-specific binding properties that is testable across diverse species. Further analysis reveals an overlap between the non-stickiness property and the structural similarity of compounds. The net result is a more robust screening assay for identifying desirable ligands that can be used to monitor intracellular localization. Several new applications of the screening protocol and results are also presented.

Published

2012

19. Raised calcium promotes α-synuclein aggregate formation

Author

Jacob Goodwin, Dean Louis Pountney, Yves Engelborghs, and Sangeeta Nath

Subjects

Fluorescence-lifetime imaging microscopy, Thapsigargin, chemistry.chemical_element, Fluorescence correlation spectroscopy, Protein aggregation, Biology, Calcium, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Cell Line, Tumor, Calcium flux, Fluorescence microscope, Humans, Molecular Biology, Inclusion Bodies, Neurons, Microscopy, Confocal, Parkinson Disease, Cell Biology, nervous system diseases, chemistry, Biochemistry, Microscopy, Fluorescence, Cytoplasm, Microscopy, Electron, Scanning, alpha-Synuclein

Abstract

Parkinson's and Parkinson's-plus diseases are associated with abnormal, aggregated forms of the protein, α-synuclein. We have investigated the effects of calcium on α-synuclein aggregation in vitro and in vivo. We treated monomeric α-synuclein with calcium in vitro and used fluorescence imaging, fluorescence correlation and scanning electron microscopy to investigate protein aggregation. Incubation of fluorescent-labelled monomeric α-synuclein (24 h) at low concentration (10 μM) with calcium resulted in surface aggregates (1.5 ± 0.7 μm2) detected by fluorescence microscopy saturating at a half-maximum calcium concentration of 80 μM, whilst incubations without calcium showed few protein aggregates. Scanning electron microscopy revealed that α-synuclein surface plaques (0.5–1 μm) form in the presence of calcium and comprise 10–20 nm globular particles. Incubation of α-synuclein at high concentration (75 μM; 6 h) resulted in soluble oligomeric aggregates detected by fluorescence correlation spectroscopy in a calcium dependent process, saturating at a half maximum calcium concentration of 180 μM. In cell culture experiments, we used thapsigargin or calcium ionophore A23187 to induce transient increases of intracellular free calcium in human 1321N1 cells expressing an α-synuclein-GFP construct and observed calcium flux and α-synuclein aggregation by fluorescence microscopy. The cell culture data shows that a transient increase in intracellular free calcium significantly increased the proportion of cells bearing cytoplasmic α-synuclein aggregates 6 and 12 h post-treatment (P, 0.01). Our data indicates that calcium accelerates α-synuclein aggregation on surfaces, in free solution and in cultured cells and suggests that surface adsorption may play an important role in the calcium-dependent aggregation mechanism.

Published

2010

20. Kif5B and Kifc1 Interact and Are Required for Motility and Fission of Early Endocytic Vesicles in Mouse Liver

Author

Souvik Sarkar, Ann O. Sperry, Eustratios Bananis, John W. Murray, Sangeeta Nath, R J Stockert, and Allan W. Wolkoff

Subjects

Immunoprecipitation, Movement, Dynein, Motility, Asialoglycoproteins, Kinesins, Biology, In Vitro Techniques, Antibodies, Mice, Microtubule, Animals, Amino Acid Sequence, Molecular Biology, Fluorescent Dyes, Mice, Knockout, Vesicle, Molecular Motor Proteins, Cell Biology, Articles, Orosomucoid, beta Karyopherins, Endocytosis, Cell biology, Mice, Inbred C57BL, Endocytic vesicle, Liver, Xanthenes, Hepatocytes, Kinesin, KIFC1

Abstract

Early endocytic vesicles loaded with Texas Red asialoorosomucoid were prepared from mouse liver. These vesicles bound to microtubules in vitro, and upon ATP addition, they moved bidirectionally, frequently undergoing fission into two daughter vesicles. There was no effect of vanadate (inhibitor of dynein) on motility, whereas 5′-adenylylimido-diphosphate (kinesin inhibitor) was highly inhibitory. Studies with specific antibodies confirmed that dynein was not associated with these vesicles and that Kif5B and the minus-end kinesin Kifc1 mediated their plus- and minus-end motility, respectively. More than 90% of vesicles associated with Kifc1 also contained Kif5B, and inhibition of Kifc1 with antibody resulted in enhancement of plus-end–directed motility. There was reduced vesicle fission when either Kifc1 or Kif5B activity was inhibited by antibody, indicating that the opposing forces resulting from activity of both motors are required for fission to occur. Immunoprecipitation of native Kif5B by FLAG antibody after expression of FLAG-Kifc1 in 293T cells indicates that these two motors can interact with each other. Whether they interact directly or through a complex of potential regulatory proteins will need to be clarified in future studies. However, the present study shows that coordinated activity of these kinesins is essential for motility and processing of early endocytic vesicles.

Published

2007

21. The Lipidation Machinery Involved in Autophagosome Growth is Only Functional on Highly Curved Membranes

Author

Sangeeta Nath, Julia Dancourt, Ai Yamamoto, Bruno Antonny, Shanta Nag, Thomas J. Melia, and Gabriella Puente

Subjects

Autophagosome, Membrane, ATG8, Autophagy, Biophysics, lipids (amino acids, peptides, and proteins), Lipid-anchored protein, Biology, Protein lipidation, Intracellular, In vitro, Cell biology

Abstract

Although a wide variety of autophagy-related proteins can target the cup-like autophagosomal isolation membrane, once the autophagosome closes only lipidated Atg8 proteins remain associated with the outer surface. It is not yet known what features of the isolation membrane distinguish it from the mature autophagosome, but one possibility is that the highly curved rim of the cup is an important marker for transiently-associated components of the autophagic machinery. Here we use a fully reconstituted in vitro assay of protein lipidation to establish several first principles in the ubiquitin-like lipidation of Atg8. We show that the E2-like enzyme, Atg3, is a membrane hydrophobicity sensor and requires extensive exposure of the membrane hydrophobic core to facilitate Atg3 function. This detection depends upon an amino-terminal ALPS-like amphipathic helix similar to motifs found on other proteins targeting highly curved intracellular membranes. Indeed, in vitro Atg3 function is dramatically increased on membranes exhibiting strident curvature. By tuning the amphipathicity and hydrophobicity of the ALPS motif, we can promote or inhibit LC3 lipidation both in vitro and in rescue experiments in Atg3 knockout cells, implying a physiologic role for this sensing. The need for extensive hydrophobic membrane exposure suggests that Atg3 is designed to work at highly-curved membranes perhaps including the limiting edge of the growing phagophore.

Published

2013

22. New liver cell mutants defective in the endocytic pathway

Author

Pamela Stanley, Allan W. Wolkoff, Sangeeta Nath, Barry Potvin, and Richard J. Stockert

Subjects

Ultraviolet Rays, Wheat Germ Agglutinins, Endosome, Bacterial Toxins, Endocytic cycle, Mutant, Biophysics, Asialoglycoproteins, Apoptosis, Cell Separation, Ricin, Biology, Endocytosis, Asialoglycoprotein receptor, Biochemistry, Article, Cell surface receptor, Pseudomonas, Receptors, Transferrin, Humans, Diphtheria Toxin, Casein Kinase II, Liver cell, Orosomucoid, Cell Biology, Molecular biology, Cell biology, Protein Transport, Liver, Trafficking mutant, Hepatocytes, Casein kinase 2, HuH-7 cells, casein kinase 2 α″, Glycoprotein–toxin selection

Abstract

To isolate mutant liver cells defective in the endocytic pathway, a selection strategy using toxic ligands for two distinct membrane receptors was utilized. Rare survivors termed trafficking mutants (Trf2-Trf7) were stable and more resistant than the parental HuH-7 cells to both toxin conjugates. They differed from the previously isolated Trf1 HuH-7 mutant as they expressed casein kinase 2 alpha'' (CK2alpha'') which is missing from Trf1 cells and which corrects the Trf1 trafficking phenotype. Binding of (125)I-asialoorosomucoid (ASOR) and cell surface expression of asialoglycoprotein receptor (ASGPR) were reduced approximately 20%-60% in Trf2-Trf7 cells compared to parental HuH-7, without a reduction in total cellular ASGPR. Based on (125)I-transferrin binding, cell surface transferrin receptor activity was reduced between 13% and 88% in the various mutant cell lines. Distinctive phenotypic traits were identified in the differential resistance of Trf2-Trf7 to a panel of lectins and toxins and to UV light-induced cell death. By following the endocytic uptake and trafficking of Alexa(488)-ASOR, significant differences in endosomal fusion between parental HuH-7 and the Trf mutants became apparent. Unlike parental HuH-7 cells in which the fusion of endosomes into larger vesicles was evident as early as 20 min, ASOR endocytosed into the Trf mutants remained within small vesicles for up to 60 min. Identifying the biochemical and genetic mechanisms underlying these phenotypes should uncover novel and unpredicted protein-protein or protein-lipid interactions that orchestrate specific steps in membrane protein trafficking.