Msaukiranji Mkandawire scite author profile

Fluorescent cellular biomarkers play a prominent role in biosciences. Most of the available biomarkers have some drawbacks due to either physical and optical or cytotoxic properties. In view of this, we investigated the potential of green fluorescent nanodiamonds as biomarkers in living cells. Nanodiamonds were functionalized by attaching antibodies that target intracellular structures such as actin filaments and mitochondria. Then, the nanodiamond conjugates were transfected into HeLa cells. Transfections were mediated by 4(th)-generation dendrimers, cationic liposomes and protamine sulfate. Using fluorescence microscopy, we confirmed successful transfections of the nanodiamonds into HeLa cells. Nanodiamond fluorescence could be easily differentiated from cellular autofluorescence. Furthermore, nanodiamonds could be targeted selectively to intracellular structures. Therefore, nanodiamonds are a promising tool for intracellular assays.

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Induction of apoptosis in human cancer cells by targeting mitochondria with gold nanoparticles

Mkandawire

Lakatos

Springer

et al. 2015

Nanoscale

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A major challenge in designing cancer therapies is the induction of cancer cell apoptosis, although activation of intrinsic apoptotic pathways by targeting gold nanoparticles to mitochondria is promising. We report an in vitro procedure targeting mitochondria with conjugated gold nanoparticles and investigating effects on apoptosis induction in the human breast cancer cell line Jimt-1. Gold nanoparticles were conjugated to a variant of turbo green fluorescent protein (mitoTGFP) harbouring an amino-terminal mitochondrial localization signal. Au nanoparticle conjugates were further complexed with cationic maltotriose-modified poly(propylene imine) third generation dendrimers. Fluorescence and transmission electron microscopy revealed that Au nanoparticle conjugates were directed to mitochondria upon transfection, causing partial rupture of the outer mitochondrial membrane, triggering cell death. The ability to target Au nanoparticles into mitochondria of breast cancer cells and induce apoptosis reveals an alternative application of Au nanoparticles in photothermal therapy of cancer.

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Functionalized Nanodiamonds as Nanoagents in Materials and Life Sciences

Hannstein

Mkandawire

Rödel

et al. 2009

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Ultradisperse nanodiamonds can be implemented as nanoagents in materials and life sciences by chemical or biological activation. In this paper we show the potential of nanodiamonds for specific applications in the fields of corrosion resistance and cell biology. We demonstrate that nanodiamonds can be used to refine surfaces in order to improve corrosion resistance, to increase adhesion properties, or to establish an on-line surface analysis technique, e.g. for corrosion monitoring, based on their optical properties. We further applied ultradisperse nanodiamonds in cell biology. Our data show that nanodiamonds can be taken up by living cells via transfection in the presence of dendrimers. Upon functionalization with antibodies, nanodiamonds can be targeted to specific intracellular structures.

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