Surface charge effect in intracellular localization of mesoporous silica nanoparticles as probed by fluorescent ratiometric pH imaging

Yi-Ping Chen; Hsueh An Chen; Yann Hung; Fan Ching Chien; Peilin Chen; Chung Yuan Mou

doi:10.1039/c1ra00586c

Surface charge effect in intracellular localization of mesoporous silica nanoparticles as probed by fluorescent ratiometric pH imaging

Yi-Ping Chen, Hsueh An Chen, Yann Hung, Fan Ching Chien, Peilin Chen, Chung Yuan Mou

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

58 Citations (Scopus)

Abstract

Mesoporous silica nanoparticles (MSNs) have received intensive recent interest as multi-functional nanocarriers for biological cells and tissues. Their cell uptake and intracellular distribution depends on the surface charge they carry. We develop a new approach for monitoring their uptake and intracellular localization by measuring the local pH value of the MSNs. We synthesized a ratiometric pH-sensor loaded with mesoporous silica nanoparticles that can map the location of the MSN through the site pH in HeLa cells. Positively charged MSN-TA was found to locate in higher pH regions which are identified as cytosol mostly. On the other hand, negatively charged MSN-PPs were trapped in acidic endosomes. Evidence is given for direct penetration of membranes through a charge-mediated membrane-nanoparticle interaction mechanism.

Original language	English
Pages (from-to)	968-973
Number of pages	6
Journal	RSC Advances
Volume	2
Issue number	3
DOIs	https://doi.org/10.1039/c1ra00586c
Publication status	Published - Feb 7 2012
Externally published	Yes

ASJC Scopus subject areas

Chemical Engineering(all)
Chemistry(all)

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abstract = "Mesoporous silica nanoparticles (MSNs) have received intensive recent interest as multi-functional nanocarriers for biological cells and tissues. Their cell uptake and intracellular distribution depends on the surface charge they carry. We develop a new approach for monitoring their uptake and intracellular localization by measuring the local pH value of the MSNs. We synthesized a ratiometric pH-sensor loaded with mesoporous silica nanoparticles that can map the location of the MSN through the site pH in HeLa cells. Positively charged MSN-TA was found to locate in higher pH regions which are identified as cytosol mostly. On the other hand, negatively charged MSN-PPs were trapped in acidic endosomes. Evidence is given for direct penetration of membranes through a charge-mediated membrane-nanoparticle interaction mechanism.",

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AU - Chen, Yi-Ping

AU - Chen, Hsueh An

AU - Hung, Yann

AU - Chien, Fan Ching

AU - Chen, Peilin

AU - Mou, Chung Yuan

PY - 2012/2/7

Y1 - 2012/2/7

N2 - Mesoporous silica nanoparticles (MSNs) have received intensive recent interest as multi-functional nanocarriers for biological cells and tissues. Their cell uptake and intracellular distribution depends on the surface charge they carry. We develop a new approach for monitoring their uptake and intracellular localization by measuring the local pH value of the MSNs. We synthesized a ratiometric pH-sensor loaded with mesoporous silica nanoparticles that can map the location of the MSN through the site pH in HeLa cells. Positively charged MSN-TA was found to locate in higher pH regions which are identified as cytosol mostly. On the other hand, negatively charged MSN-PPs were trapped in acidic endosomes. Evidence is given for direct penetration of membranes through a charge-mediated membrane-nanoparticle interaction mechanism.

AB - Mesoporous silica nanoparticles (MSNs) have received intensive recent interest as multi-functional nanocarriers for biological cells and tissues. Their cell uptake and intracellular distribution depends on the surface charge they carry. We develop a new approach for monitoring their uptake and intracellular localization by measuring the local pH value of the MSNs. We synthesized a ratiometric pH-sensor loaded with mesoporous silica nanoparticles that can map the location of the MSN through the site pH in HeLa cells. Positively charged MSN-TA was found to locate in higher pH regions which are identified as cytosol mostly. On the other hand, negatively charged MSN-PPs were trapped in acidic endosomes. Evidence is given for direct penetration of membranes through a charge-mediated membrane-nanoparticle interaction mechanism.

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Surface charge effect in intracellular localization of mesoporous silica nanoparticles as probed by fluorescent ratiometric pH imaging

Abstract

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