Gautam Bajagur Kempegowda scite author profile

Gautam Bajagur Kempegowda

2Publications

88Citation Statements Received

120Citation Statements Given

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116

Affiliations

Metropolitan Community College, SUNY Polytechnic Institute, New York University

Publications

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Heterogeneous Domains and Membrane Permeability in Phosphatidylcholine−Phosphatidic Acid Rigid Vesicles As a Function of pH and Lipid Chain Mismatch

Karve¹,

Kempegowda²,

Sofou³

2008

Langmuir

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Heterogeneous lipid membranes tuned by pH were evaluated at 37 degrees C in the form of PEGylated vesicles composed of lipid pairs with dipalmitoyl ( n = 16) and distearoyl ( n = 18) chain lengths. One lipid type was chosen to have the titratable moiety phosphatidic acid on its headgroup, and the other lipid type was chosen to have a phosphatidylcholine headgroup. The effect of pH on the formation of lipid heterogeneities and on membrane permeability was studied on vesicles composed of lipid pairs with matching and nonmatching chain lengths. The formation of lipid heterogeneities increases with decreasing pH in membranes composed of lipid pairs with either matching or nonmatching chain lengths. Increased permeability with decreasing pH was exhibited only by membranes composed of lipid pairs with nonmatching chain lengths. Permeability rates correlate strongly with the predicted extent of interfacial boundaries of heterogeneities, suggesting defective packing among nonmatching acyl chains of lipids. In heterogeneous mixtures with one lipid type in the fluid state ( n = 12), the dependence of membrane permeability on pH is weaker. In the presence of serum proteins, PEGylated gel-phase vesicles containing lipid pairs with nonmatching chain lengths exhibit faster release rates with decreasing pH compared to measured release rates in phosphate buffer, suggesting a second mechanism of formation of separated phases. PEGylated vesicles composed of lipid pairs with nonmatching chain lengths labeled with internalizing anti-HER2/neu antibodies that target overexpressed antigens on the surface of SKOV3-NMP2 ovarian cancer cells exhibit specific cancer cell targeting, followed by extensive internalization (more than 84% of bound vesicles) and fast release of contents intracellularly. These PEGylated vesicles composed of rigid membranes for long blood circulation times that exhibit pH-dependent release of contents intracellularly could become potent drug delivery carriers for the targeted therapy of solid tumors.

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pH-Dependent Formation of Lipid Heterogeneities Controls Surface Topography and Binding Reactivity in Functionalized Bilayers

et al. 2009

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During direct cell-to-cell communication, lipids on the extracellular side of plasma membranes reorganize, and membrane-associated communication-related molecules colocalize. At colocalization sites, sometimes identified as rafts, the local cell surface topography and reactivity are altered. The processes regulating these changes are largely unknown. On model lipid membranes, study of simplified processes that control surface topography and reactivity may potentially contribute to the understanding and control of related cell functions and associated diseases. Integration of these processes on nanometer-sized lipid vesicles used as drug delivery carriers would precisely control their interactions with diseased cells minimizing toxicities. Here we design such basic pH-dependent processes on model functionalized lipid bilayers, and we demonstrate reversible sharp changes in binding reactivity within a narrow pH window. Cholesterol enables tuning of the membrane reorganization to occur at pH values not necessarily close to the reported pK(a)'s of the constituent titratable lipids, and bilayer reorganization over repeated cycles of induced pH changes exhibits hysteresis.

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