Folic-Acid-Functionalized Graphene Oxide Nanocarrier:
Synthetic Approaches, Characterization, Drug Delivery Study, and Antitumor
Screening
Marcelo de Sousa
Luis Augusto Visani de Luna
Leandro Carneiro Fonseca
Selma Giorgio
Oswaldo Luiz Alves
10.1021/acsanm.7b00324.s001
https://acs.figshare.com/articles/journal_contribution/Folic-Acid-Functionalized_Graphene_Oxide_Nanocarrier_Synthetic_Approaches_Characterization_Drug_Delivery_Study_and_Antitumor_Screening/5872593
In
this work, we developed and screened the potential antitumor
activity of a nanocarrier based on graphene oxide (GO) and folic acid
(FA) for the delivery of chemotherapy drugs. GO was synthesized by
the graphite exfoliation process. FA was linked to PEG (4,7,10-trioxa-1,13-tridecanediamine)
to form FA–PEG, followed by coupling to the GO surface. Camptothecin
(CPT) was further adsorbed on GO for use as a drug model in the delivery
study. The synthesis of the intermediate FA–PEG molecule and
coupling to GO for the formation of the GO–FA nanocarrier were
confirmed by basic and state-of-the-art characterization techniques,
including infrared (FTIR) spectroscopy, thermogravimetric analysis
(TGA), electrospray ionization (ESI) mass spectrometry, transmission
electron microscopy (TEM), and magic-angle spinning carbon-13 nuclear
magnetic resonance (CP/MAS <sup>13</sup>C NMR) spectroscopy. FTIR
spectroscopy showed a significant reduction in the signal intensity
of the carboxylic groups after the functionalization of GO with FA–PEG.
TGA of GO–FA revealed that approximately 20% of the functional
groups were from FA–PEG. GO–FA indicated a high CPT
loading capacity (37.8%). <i>In vitro</i> studies confirmed
prolonged drug release over 200 h. Acidic pH (5.0) slowed the release
of CPT from the nanocarrier compared to that at physiological pH (7.4).
The toxicity screening of GO–FA and GO–FA + CPT was
investigated for two widely studied preclinical cell models: J774,
a tumor cell with macrophage phenotype and high proliferation rate;
and HepG2, a tumor cell obtained from human hepatocellular carcinoma
with folate transporters. The toxicity of the GO–FA nanocarrier
without drug loading was dependent on the cell type and presented
no toxicity to J774 but high toxicity to HepG2. The presence of FA
in the nanocarrier loaded with CPT was crucial to achieve apoptosis
in both tumor cell lines. In addition, confocal microscopy revealed
both the adhesion and internalization of the FITC-labeled GO–FA
by the tumor cell lines.
2018-01-30 00:00:00
CPT
Drug Delivery Study
Folic-Acid-Functionalized Graphene Oxide Nanocarrier
tumor cell lines
graphite exfoliation process
toxicity
FTIR
nanocarrier
FA
PEG
TEM
CP
transmission electron microscopy
NMR
spectroscopy
tumor cell
TGA
ESI