Junji Kawakami scite author profile

The thermodynamics of DNA duplex structures in the presence of high concentrations of cosolutes in solution were investigated to discern nucleic acid structures and functions in living cells. In the presence of ethylene glycol (EG) and poly(ethylene glycol) (PEG) (MW = 200-8000), the stability of the oligomer DNA duplexes with differing nucleotide length varied, depending on the nucleotide length as well as the size of PEG. It was also revealed that the decrease of water activity is the primary factor for destabilization of the short (8-mer) duplex by addition of high molecular weight PEGs as well as low molecular weight PEGs and other low molecular weight cosolutes. In addition, the number of water molecules taken up per base pair formation was the same for all the PEGs and for 1,2-dimethoxyethane, which was greater than in the cases of glycerol, EG, 1,3-propanediol, and 2-methoxyethanol, suggesting that the solvation of nucleotides may differ, depending on the cosolute structure. These findings are useful not only for understanding nucleic acid structures and functions in cells but also for the design of oligonucleotides applicable for cells, such as antisense nucleic acids, RNAi, and DNA chips.

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Discovery of a new function of curcumin which enhances its anticancer therapeutic potency

Nagahama

Utsumi

Kumano

et al. 2016

Sci Rep

120

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Curcumin has received immense attention over the past decades because of its diverse biological activities and recognized as a promising drug candidate in a large number of diseases. However, its clinical application has been hindered due to extremely low aqueous solubility, chemical stability, and cellular uptake. In this study, we discovered quite a new function of curcumin, i.e. pH-responsive endosomal disrupting activity, derived from curcumin’s self-assembly. We selected anticancer activity as an example of biological activities of curcumin, and investigated the contribution of pH-responsive property to its anticancer activity. As a result, we demonstrated that the pH-responsive property significantly enhances the anticancer activity of curcumin. Furthermore, we demonstrated a utility of the pH-responsive property of curcumin as delivery nanocarriers for doxorubicin toward combination cancer therapy. These results clearly indicate that the smart curcumin assemblies act as promising nanoplatform for development of curcumin-based therapeutics.

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Design and evaluation of locked nucleic acid-based splice-switching oligonucleotidesin vitro

et al. 2014

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Antisense-mediated modulation of pre-mRNA splicing is an attractive therapeutic strategy for genetic diseases. Currently, there are few examples of modulation of pre-mRNA splicing using locked nucleic acid (LNA) antisense oligonucleotides, and, in particular, no systematic study has addressed the optimal design of LNA-based splice-switching oligonucleotides (LNA SSOs). Here, we designed a series of LNA SSOs complementary to the human dystrophin exon 58 sequence and evaluated their ability to induce exon skipping in vitro using reverse transcription-polymerase chain reaction. We demonstrated that the number of LNAs in the SSO sequence and the melting temperature of the SSOs play important roles in inducing exon skipping and seem to be key factors for designing efficient LNA SSOs. LNA SSO length was an important determinant of activity: a 13-mer with six LNA modifications had the highest efficacy, and a 7-mer was the minimal length required to induce exon skipping. Evaluation of exon skipping activity using mismatched LNA/DNA mixmers revealed that 9-mer LNA SSO allowed a better mismatch discrimination. LNA SSOs also induced exon skipping of endogenous human dystrophin in primary human skeletal muscle cells. Taken together, our findings indicate that LNA SSOs are powerful tools for modulating pre-mRNA splicing.

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In vitro selection of aptamers that act with Zn2+

Kawakami

Imanaka

Yokota

et al. 2000

Journal of Inorganic Biochemistry

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Random mutations to evaluate the role of bases at two important single-stranded regions of genomic HDV ribozyme

Kumar

Suh

Miyashiro³

et al. 1992

Nucl Acids Res

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In elucidating function of two important single-stranded regions [SSrA (726-731 nt) and SSrB (762-766 nt)] derived mainly from three secondary structure models in genomic hepatitis delta virus (HDV) ribozyme possessing self-cleavage activity, we have constructed several random mutants at those two regions on the HDV88 molecule (683-770 nt) by oligonucleotide-directed mutagenesis. When self-cleavage activities were compared among mutants, at the region SSrA, G726 was found to play an important role during cleavage reaction since substitutions of the base to A (mutant A20) or C (mutant A16) or U (mutant A23), reduced the ribozyme activity to very low levels suggesting the importance of G726 position. C763 at SSrB region was found to play a more significant role during catalysis than G726 (at region SSrA) since any substitutions at C763 completely inactivated the ribozyme. Other bases located in these two regions could be substituted to other bases at the expense of some self-cleavage activity. The results presented here together with our previous deletion analysis indicate that these two regions may play an important role during cleavage process.

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Junji Kawakami

The Effect of Molecular Crowding with Nucleotide Length and Cosolute Structure on DNA Duplex Stability

Discovery of a new function of curcumin which enhances its anticancer therapeutic potency

Design and evaluation of locked nucleic acid-based splice-switching oligonucleotidesin vitro

In vitro selection of aptamers that act with Zn2+

Random mutations to evaluate the role of bases at two important single-stranded regions of genomic HDV ribozyme

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