Membrane Fusion Induced by Small Molecules and Ions

Roy, Sutapa Mondal; Sarkar, Munna

doi:10.1155/2011/528784

Cited by 72 publications

(60 citation statements)

References 123 publications

(150 reference statements)

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“…That is, there is slow transfer of lipids between the apposed bilayers but the aqueous interiors are not connected. This conclusion is not surprising for a couple of reasons; a) the liposomes are primarily comprised of POPC, a cylindrical polar lipid that is known to energetically favour a planar lamellar structure and disfavour the curved surfaces that are formed during the process of full membrane fusion, and b) the long PEG chains that project from the membrane exterior hinder close contact of the aggregated bilayers . Although full membrane fusion and aqueous content mixing is needed for effective cytosol delivery of polar payloads such as large macromolecules, selective targeting of stable liposomes to cell surfaces is also a desirable process for controlled delivery of lipophilic drugs and also for many imaging applications …”

Section: Resultsmentioning

confidence: 99%

Non‐Covalent Assembly Method that Simultaneously Endows a Liposome Surface with Targeting Ligands, Protective PEG Chains, and Deep‐Red Fluorescence Reporter Groups

Shaw

Liu

Brennan

et al. 2017

Chemistry A European J

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A new self-assembly method is used to rapidly functionalize the surface of liposomes without perturbing the membrane integrity or causing leakage of the aqueous contents. The key molecule is a cholesterol-squaraine-PEG conjugate with three important structural elements: a cholesterol membrane anchor, a fluorescent squaraine docking station that allows rapid and high-affinity macrocycle threading, and a long PEG-2000 chain to provide steric shielding of the decorated liposome. The two-step method involves spontaneous insertion of the conjugate into the outer leaflet of pre-formed liposomes followed by squaraine threading with a tetralactam macrocycle that has appended targeting ligands. A macrocycle with six carboxylates permitted immobilization of intact fluorescent liposomes on the surface of cationic polymer beads, whereas a macrocycle with six zinc(II)-dipicolylamine units enabled selective targeting of anionic membranes, including agglutination of bacteria in the presence of human cells.

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Section: Resultsmentioning

confidence: 99%

Non‐Covalent Assembly Method that Simultaneously Endows a Liposome Surface with Targeting Ligands, Protective PEG Chains, and Deep‐Red Fluorescence Reporter Groups

Shaw

Liu

Brennan

et al. 2017

Chemistry A European J

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“…Exogenous surfactant-induced interfacial surface tension, i.e., "water stress," is the biophysical basis [1][2][3] for the generalized Sanarelli-Shwartzman phenomenon, generalized thrombohemorrhagic phenomena, the nonspecific generalized stress adaptation syndrome, the systemic inflammatory response syndrome, immune cell activation, macropinocytosis [73,[304][305][306], vesiculation [77], adhesion [63,64,78], engulfment [45,46,256], envelopment [309], fusion [74,77,78,172,[309][310][311], podokinesis [312][313][314][315], transcellular diapedesis [316] and nutritive endocytosis [317][318][319][320]. These highly-stereotyped supramolecular (mesoscopic), quantum coherent, biological processes are examples of the biophysical properties which motivate homeopathy.…”

Section: Discussionmentioning

confidence: 99%

“…Esitashvili and Msuknishvili observed an increase in blood surface tension during acute myocardial infarction in humans [54]. Electrostatic interactions and interfacial charge regulation of biomembranes is a focus of intense ongoing research [65][66][67][73][74][75][76][77][78][79][80][81]. Fiszer-Kierzkowska recently suggested that cationic liposomes may not be suitable vehicles for gene transfection, given that they produced apoptosis and aggregation of misfolded proteins and/or fluidity changes of cellular membranes [82].…”

Section: Introductionmentioning

confidence: 99%

The Initial Common Pathway of Inflammation, Disease, and Sudden Death

Davidson¹,

Seneff²

2012

Entropy

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Abstract:In reviewing the literature pertaining to interfacial water, colloidal stability, and cell membrane function, we are led to propose that a cascade of events that begins with acute exogenous surfactant-induced interfacial water stress can explain the etiology of sudden death syndrome (SDS), as well as many other diseases associated with modern times. A systemic lowering of serum zeta potential mediated by exogenous cationic surfactant administration is the common underlying pathophysiology. The cascade leads to subsequent inflammation, serum sickness, thrombohemorrhagic phenomena, colloidal instability, and ultimately even death. We propose that a sufficient precondition for sudden death is lowered bioavailability of certain endogenous sterol sulfates, sulfated glycolipids, and sulfated glycosaminoglycans, which are essential in maintaining biological equipose, energy metabolism, membrane function, and thermodynamic stability in living organisms. Our literature review provides the basis for the presentation of a novel hypothesis as to the origin of endogenous bio-sulfates which involves energy transduction from sunlight. Our hypothesis is amply supported by a growing body of data showing that parenteral administration of substances that lower serum zeta potential results in kosmotropic cationic and/or chaotropic anionic interfacial water stress, and the resulting cascade.Keywords: inflammation; serum sickness; colloidal instability; interfacial water stress; bio-sulfates; Shwartzman phenomena; sudden death syndrome Glossary of TermsAnaphylaxis a severe, rapidly progressing, life-threatening, generalized allergic reaction. Biological equipoise a stable, non-equilibrium, dissipative system synonymous with life. Cholesterol sulfate (Ch-S)quantitatively the most important known sterol sulfate in human plasma where it regulates the activity of the serine proteases, in cell membranes where it has a stabilizing role, and in platelet membranes where it supports platelet adhesion. Coherence domain (CD)a water CD is a collection of liquid water molecules which oscillate in unison in tune with a self-trapped electromagnetic field at a well-defined frequency. The coherent oscillations produce an ensemble of quasi-free electrons, able to collect noise energy from the environment and transform it into high-grade coherent energy in the form of electron vortices. This high-grade energy may then activate biomolecules resonating with the water CD. Colloidal instabilitya property attributed to a colloidal suspension that develops when stabilizing repulsive steric and electrostatic forces between colliding particles are insufficient to prevent their natural tendency to aggregate into masses large enough to precipitate.Colloidal suspension a colloid that has a continuous liquid phase in which a solid is suspended in a liquid, e.g., our flowing blood. Exclusion zone (EZ)a glass-like, gel phase consisting of water CDs resonating in-phase, adjacent to hydrophilic surfaces, several hundred micrometers wide which excludes colloi...

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“…Besides these normal development‐associated and tightly regulated fusion processes, hybrid cell formation can also occur spontaneously by “accidental cell fusion” which is favorized by a fusion‐permissive environment including acidic pH, hypoxia, accumulation of damage‐associated molecular patterns, and membrane lipids destabilizing ions and peptides . Accordingly, cell fusion can generate aneuploidy, chromosomal instability, and DNA damage, all of which cause multiple genetic aberrations and potentially neoplastic development .…”

Section: Introductionmentioning

confidence: 99%

In Vitro Fusion of Normal and Neoplastic Breast Epithelial Cells with Human Mesenchymal Stroma/Stem Cells Partially Involves Tumor Necrosis Factor Receptor Signaling

2018

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Formation of hybrid cells by "accidental cell fusion" of normal and neoplastic breast epithelial cells with local tissue-associated mesenchymal stroma/stem-like cells (MSC) in an inflammatory microenvironment can generate new cancer cell populations whereby molecular signaling mechanisms of this process remain unclear. Fusions of lentiviral enhanced green fluorescent protein-labeled MSC with mcherry-labeled breast epithelial cells were quantified and effects of tumor necrosis factor alpha (TNF-α) and receptor downstream signaling were investigated. Cocultures of MSC with normal human mammary epithelial cells, with neoplastic MCF10A, or with MDA-MB-231 or MCF7 breast cancer cells demonstrated hybrid cell formation between 0.1% and about 2% of the populations within 72 hours, whereby the fusion process occurred in less than 5 minutes. Addition of the pro-inflammatory cytokine TNF-α significantly enhanced MCF10A-MSC cell fusion. Small-interfering RNA (siRNA) knockdown experiments revealed an involvement of tumor necrosis factor (TNF) receptor-1 and -2 in this process. This was also substantiated by siRNA knockdown of tumor necrosis factor receptor type 1-associated death domain which abolished TNF-α-stimulated fusion. While TNF receptor signaling can be relayed via the Mitogen-activated protein kinase 8 (MAPK8), NF-κB or cell death pathways, examination of further downstream signaling exhibited little if any effects of MAPK8 or RelA (p65) on TNF-α-mediated cell fusion, respectively. These data suggested that cell fusion between MSC and MCF10A breast epithelial cells can be stimulated by TNF-α involving TNF receptor-activated cell death pathways or additional NF-κB signaling. Stem Cells 2018;36:977-989.

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Membrane Fusion Induced by Small Molecules and Ions

Cited by 72 publications

References 123 publications

Non‐Covalent Assembly Method that Simultaneously Endows a Liposome Surface with Targeting Ligands, Protective PEG Chains, and Deep‐Red Fluorescence Reporter Groups

Non‐Covalent Assembly Method that Simultaneously Endows a Liposome Surface with Targeting Ligands, Protective PEG Chains, and Deep‐Red Fluorescence Reporter Groups

The Initial Common Pathway of Inflammation, Disease, and Sudden Death

In Vitro Fusion of Normal and Neoplastic Breast Epithelial Cells with Human Mesenchymal Stroma/Stem Cells Partially Involves Tumor Necrosis Factor Receptor Signaling

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