Dendrimer Induced Bilayer Disintegration of Hybrid Vesicles

Standard

Dendrimer Induced Bilayer Disintegration of Hybrid Vesicles. / Guha, Pritam; Roy, Biplab; Nahak, Prasant; Karmakar, Gourab; Быков, Алексей Геннадьевич ; Акентьев, Александр Владимирович ; Носков, Борис Анатольевич; Dutta, Kunal; Ghosh, Chandrasekhar; Panda, Amiya Kumar.

In: Journal of Oleo Science, Vol. 73, No. 4, 2024, p. 547-562.

Research output: Contribution to journal › Article › peer-review

BibTeX

@article{28702203814f4e1c8874535523a8e838,

title = "Dendrimer Induced Bilayer Disintegration of Hybrid Vesicles",

abstract = "Physicochemical investigations on the inclusion of anionic polyamidoaminesuccinamic acid dendrimer, generation 5 (PAMAM-SA, G5) with positively charged hybrid vesicles (HCV), prepared using soylecithin, ion pair amphiphile (IPA), cholesterol and dihexadecyldimethylammonium bromide, were investigated by dynamic light scattering, transmission electron/atomic force microscopy (TEM/AFM), differential scanning calorimetry, fluorescence spectroscopy and surface pressure-time isotherm studies. Adsorption of dendrimer onto vesicle surface and subsequent bilayer disruption strongly depends on the bilayer composition and dendrimer concentration. Change in the zeta potential value with increasing dendrimer concentration suggests the dendrimer-vesicle interaction to be electrostatic in nature. AFM studies also confirm the adsorption of dendrimer as well as hole formation in the bilayer. Impact of the inclusion of dendrimer into the bilayer were further investigated through differential scanning calorimetry by monitoring the chain melting temperature and enthalpy of the chain melting processes. Dendrimer at low concentration does not alter bilayer integrity, while hole formations are noted at higher dendrimer concentration. Fluorescence anisotropy studies confirm the adsorption and subsequent bilayer disruption due to dendrimer inclusion. Dendrimer induced vesicle disintegration kinetics conclusively illustrate the transformation of cationic bilayer to monolayer and thereby exposing the role of IPA. In vitro cytotoxicity studies on PAMAM-SA, G5 and HCVs mixtures against human breast cancer cell line suggest that dendrimer-liposome aggregates (dendriosomes) exhibit substantial anticancer activities with insignificant side effects. It is expected that the dendriosomes may have application to host and deliver anticancer drug in the field of targeted drug delivery.",

keywords = "AFM, cytotoxicity, dendrimer, hybrid cationic vesicles, monolayer adsorption kinetics",

author = "Pritam Guha and Biplab Roy and Prasant Nahak and Gourab Karmakar and Быков, {Алексей Геннадьевич} and Акентьев, {Александр Владимирович} and Носков, {Борис Анатольевич} and Kunal Dutta and Chandrasekhar Ghosh and Panda, {Amiya Kumar}",

year = "2024",

doi = "10.5650/jos.ess23097",

language = "English",

volume = "73",

pages = "547--562",

journal = "Journal of Oleo Science",

issn = "1345-8957",

publisher = "Japan Oil Chemists Society",

number = "4",

}

RIS

TY - JOUR

T1 - Dendrimer Induced Bilayer Disintegration of Hybrid Vesicles

AU - Guha, Pritam

AU - Roy, Biplab

AU - Nahak, Prasant

AU - Karmakar, Gourab

AU - Быков, Алексей Геннадьевич

AU - Акентьев, Александр Владимирович

AU - Носков, Борис Анатольевич

AU - Dutta, Kunal

AU - Ghosh, Chandrasekhar

AU - Panda, Amiya Kumar

PY - 2024

Y1 - 2024

N2 - Physicochemical investigations on the inclusion of anionic polyamidoaminesuccinamic acid dendrimer, generation 5 (PAMAM-SA, G5) with positively charged hybrid vesicles (HCV), prepared using soylecithin, ion pair amphiphile (IPA), cholesterol and dihexadecyldimethylammonium bromide, were investigated by dynamic light scattering, transmission electron/atomic force microscopy (TEM/AFM), differential scanning calorimetry, fluorescence spectroscopy and surface pressure-time isotherm studies. Adsorption of dendrimer onto vesicle surface and subsequent bilayer disruption strongly depends on the bilayer composition and dendrimer concentration. Change in the zeta potential value with increasing dendrimer concentration suggests the dendrimer-vesicle interaction to be electrostatic in nature. AFM studies also confirm the adsorption of dendrimer as well as hole formation in the bilayer. Impact of the inclusion of dendrimer into the bilayer were further investigated through differential scanning calorimetry by monitoring the chain melting temperature and enthalpy of the chain melting processes. Dendrimer at low concentration does not alter bilayer integrity, while hole formations are noted at higher dendrimer concentration. Fluorescence anisotropy studies confirm the adsorption and subsequent bilayer disruption due to dendrimer inclusion. Dendrimer induced vesicle disintegration kinetics conclusively illustrate the transformation of cationic bilayer to monolayer and thereby exposing the role of IPA. In vitro cytotoxicity studies on PAMAM-SA, G5 and HCVs mixtures against human breast cancer cell line suggest that dendrimer-liposome aggregates (dendriosomes) exhibit substantial anticancer activities with insignificant side effects. It is expected that the dendriosomes may have application to host and deliver anticancer drug in the field of targeted drug delivery.

AB - Physicochemical investigations on the inclusion of anionic polyamidoaminesuccinamic acid dendrimer, generation 5 (PAMAM-SA, G5) with positively charged hybrid vesicles (HCV), prepared using soylecithin, ion pair amphiphile (IPA), cholesterol and dihexadecyldimethylammonium bromide, were investigated by dynamic light scattering, transmission electron/atomic force microscopy (TEM/AFM), differential scanning calorimetry, fluorescence spectroscopy and surface pressure-time isotherm studies. Adsorption of dendrimer onto vesicle surface and subsequent bilayer disruption strongly depends on the bilayer composition and dendrimer concentration. Change in the zeta potential value with increasing dendrimer concentration suggests the dendrimer-vesicle interaction to be electrostatic in nature. AFM studies also confirm the adsorption of dendrimer as well as hole formation in the bilayer. Impact of the inclusion of dendrimer into the bilayer were further investigated through differential scanning calorimetry by monitoring the chain melting temperature and enthalpy of the chain melting processes. Dendrimer at low concentration does not alter bilayer integrity, while hole formations are noted at higher dendrimer concentration. Fluorescence anisotropy studies confirm the adsorption and subsequent bilayer disruption due to dendrimer inclusion. Dendrimer induced vesicle disintegration kinetics conclusively illustrate the transformation of cationic bilayer to monolayer and thereby exposing the role of IPA. In vitro cytotoxicity studies on PAMAM-SA, G5 and HCVs mixtures against human breast cancer cell line suggest that dendrimer-liposome aggregates (dendriosomes) exhibit substantial anticancer activities with insignificant side effects. It is expected that the dendriosomes may have application to host and deliver anticancer drug in the field of targeted drug delivery.

KW - AFM

KW - cytotoxicity

KW - dendrimer

KW - hybrid cationic vesicles

KW - monolayer adsorption kinetics

UR - https://www.mendeley.com/catalogue/18381df1-d927-33f1-b519-c3fd61cd51cc/

U2 - 10.5650/jos.ess23097

DO - 10.5650/jos.ess23097

M3 - Article

VL - 73

SP - 547

EP - 562

JO - Journal of Oleo Science

JF - Journal of Oleo Science

SN - 1345-8957

IS - 4

ER -

ID: 124534877