specific target and anti-proliferative effect of cisplatin ... · supporting information layered...

Supporting information

Layered Double Hydroxide Nanoparticles to Enhance Organ-

Specific Target and Anti-Proliferative Effect of Cisplatin

Yue-Ming Kuoa,‡ Yaswanth Kuthatia,‡ Ranjith Kumar Kankalaa, Pei-Ru Weia, Ching-Feng Wenga,

Chen-Lun Liua, Ping-Jyun Sunga,b, Chung-Yuan Mouc and Chia-Hung Leea*.

aDepartment of Life Science and Institute of Biotechnology, National Dong Hwa University, Hualien, 974, Taiwan. bGraduate Institute of Marine Biotechnology, National Dong Hwa University, Pingtung 944, Taiwan. cDepartment of Chemistry, National Taiwan University, Taipei, 106, Taiwan.

Figure S1. TEM images of (a) LDH-NH2, (b) LDH-NH-COOH, (c) LDH-NH-PEG5000 and (d)

LDH-NH-COOH-CP. The morphology of LDH-NH-COOH-CP samples showed high stability

after treatment with blood plasma for 24 h. Scale bars-100 nm.

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Electronic Supplementary Material (ESI) for Journal of Materials Chemistry B.This journal is © The Royal Society of Chemistry 2015

600 700 800

0.0

0.1

0.2

0.3

0.4

Abso

rptio

n (a

.u.)

Wavelength (nm)

(a)

(b)(c)(d)

Figure S2. UV-Vis spectra and white-light sample images of ninhydrin treated (a) LDH-NH2,

(b) LDH-NH-PEG5000, (c) LDH-NH-COOH samples and (d) Ninhydrin solution alone.

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200 300 400 500

0.0

0.5

1.0

1.5

2.0Ab

sorb

ance

Wavelength (nm)

(a)

(b)

Figure S3. UV-Vis spectra of (a) hydroxo-cisplatin, and LDH-NH-COOH-CP samples.

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Figure S4. Cellular morphology after treated with (a) Control (0 µg mL-1), (b) 10 µg mL-1, (c) 50 μg mL-

1, and (d) 100 μg mL-1 of LDH-NH-COOH-CP (e) LDH-NH-PEG5000 (100 μg mL-1), (f) LDH-NH-

COOH (100 μg mL-1) nanoparticles for 24 h. Then, the cell cytotoxicity was detected by microscopic

morphological examination.

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ug / mL3 5 13 25 40 50 80

Cel

l Via

bilit

y (%

)

0

20

40

60

80

100

120

140

160

180LDHLDH-NH2

LDH-NH-PEG 5000LDH-NH-COOH

Figure S5. MTT cytotoxicity assay of HT-29 cells treated with LDH, LDH-NH2, LDH-NH-PEG5000,

and LDH-NH-COOH samples at various concentration ranges (3, 5, 13, 25, 40, 50, 80 μg mL-1) for 24 h.

Cells without added nanoparticles were taken as the control experiment and the viability was set as 100%.

The final report data were expressed as a percentage of the control (mean± standard deviation).

5

ug / mL

P CTL 10 50 100

LDH

Rel

ease

(%)

0

20

40

60

80

100 LDHLDH-NH2

LDH-NH-PEG5000LDH-NH-COOHLDH-NH-COO-CP

Figure S6. The Lactate dehydrogenase assay of HT-29 cells treated with LDH, LDH-NH2, LDH-NH-

PEG5000, LDH-NH-COOH, and LDH-NH-COOH-CP samples at 10, 50, and 100 µg mL-1 for 24 h.

Samples without nanoparticle treatment were defined as the control (CTL) experiment and Triton X-100

(1 %) treated sample was defined as the positive (P) experiment.

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Figure S7. Induction of DNA fragmentation of LDH-NH-COOH-CP nanoparticles to colon cancer cells

(HT-29): (a) 100 bp DNA marker, (b) 0 µg mL-1, (c) 5 µg mL-1, and d) 10.3 µg mL-1 of LDH-NH2-

COOH-CP treatments.

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Figure S8. White-light (left samples) and fluorescent images (right samples) of the centrifuged (represented ‘) and suspended samples after incubation in PBS (labeled 1) and plasma (labeled 2) for 3 h. (A) LDH, (B) LDH-NH2, (C) LDH-NH-PEG5000, (D) LDH-NH-COOH.

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