Effect of Molecular Weights of Polyethyleneimine on the Polyplex Formation with Calf Thymus DNA

Jungho Han; Seog K. Kim; Tae-Sub Cho; Jae-Cheol Lee

Macromolecular Research, Vol.12, No.3, 276-281, June, 2004

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Effect of Molecular Weights of Polyethyleneimine on the Polyplex Formation with Calf Thymus DNA

Jungho Han, Seog K. Kim, Tae-Sub Cho^†, and Jae-Cheol Lee¹

Department of Chemistry, Yeungnam University, 214-1 Dae-dong, Kyoungsan, Kyoung-buk 712-749, Korea
¹Department of Bio-Food Science and Technology, Samcheok National University, Samcheok, Gangwon 245-711, Korea

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In this study we investigated the spectral properties, including electric absorption, circular and linear dichroism (CD and LD), and fluorescence emission, of DNA in a DNA-branched polyethyleneimine (BPEI) polyplex at various polymer molecular weights (Mw) and BPEI-amine-to-DNA-phosphate ratios (N/P ratios). All BPEIs exhibited a common N/P dependence in their absorption and CD spectra. At N/P ratios < 1.0, we observed some hyperchromism in the absorption spectrum, red-shifts in CD bands, and decreases in LD intensity and fluorescence intensity of intercalated ethidium. At intermediate N/P ratios, complete collapse of all spectra occurred. As the N/P ratio increased further, the polyplex dissolved in water. From its characteristic CD spectrum obtained under these conditions, we conclude that the DNA exists in a B-like form. The fluorescence and LD intensities never recovered-even at high N/P ratios-which indicates that the dissolved polyplex possesses positive charges and the DNA in the polyplex is condensed despite its B-form CD spectrum. The N/P range in which the absorption and CD signals collapsed was wider when the BPEIs Mw decreased. In the case where the BPEIs Mw was 0.8 k, recovery of the absorption and CD spectral properties at a high N/P ratio was never achieved, which suggests that the molecular weight of the polymer plays an important role in its dissolution at a high N/P ratio.

Keywords:polarized light spectroscopy;polyplex;polyethyleneimine;gene carrier;DNA.

[References]

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[Referenced By]

[1] Chirila TV, Rakoczy PE, Garrett KL, Lou X, Constable IJ, Biomaterials, 23, 321 (2003)

[2] Kircheis R, Wightman L, Wagner E, Adv. Drug. Deliv. Rev., 53, 341 (2001)

[3] De Smedt SC, Demeester J, Hennink WE, Pharm. Res., 17, 113 (2000)

[4] Zauner W, Ogris M, Wagner E, Adv. Drug Deliv. Rev., 30, 97 (1998)

[5] Kichler A, Behr JP, Erbacher P, Nonviral Vectors for Gene Therapy, L. Huang, M-C. Hung, and E. Wagner, Eds. Academic Press, New York, pp. 192-207 (1999)

[6] Boussif O, Lezoualch F, Znata MA, Mergny MD, Scherman D, Demeneix B, Behr JP, Proc. Natl. Acad. Sci. USA, 92, 7297 (1995)

[7] Boussif O, Zanta MA, Behr JP, Gene Ther., 3, 1074 (1996)

[8] Dunlap DD, Maggi A, Soria MR, Lonaco L, Nucl. Acids Res., 25, 3095 (1997)

[9] Godbey WT, Wu KK, Mikos AG, J. Control. Release, 60, 149 (1999)

[10] Godbey WT, Barry MA, Saggau P, Wu KK, Mikos AG, J. Biomed. Mater. Res., 51, 321 (2000)

[11] Bandyopadhyay P, Ma X, Linehan-Stieers C, Kren BT, Steer CJ, J. Biol. Chem., 274, 10163 (1999)

[12] Remy JS, Abdallah B, Zanta MA, Bousiff O, Behr JP, Bemeneix BA, Adv. Drug Del. Rev., 30, 85 (1998)

[13] Behr JP, Chimica, 51, 34 (1997)

[14] Godbey WT, Wu KK, Mikos AG, J. Biomed. Mater. Res., 45, 268 (1999)

[15] Fischer D, Bieber T, Li Y, Elsasser H, Kissel T, Pharm. Res., 16, 1273 (1999)

[16] Godbey WT, Wu KK, Mikos AG, J. Control. Release, 60, 149 (1999)

[17] Mahato RI, Lee M, Han S, Maheshwari A, Kim SW, Mol. Ther., 4, 130 (2001)

[18] Han S, Mahato RI, Kim SW, Bioconj. Chem., 12, 337 (2001)

[19] Norden B, Seth S, Appl. Spectrosc., 39, 647 (1985)

[20] Norden B, Kubista M, Kurucsev T, Q. Rev. Biophys., 25, 51 (1992)

[21] Norden B, Kurucsev T, J. Mol. Recogn., 7, 141 (1994)

[22] Pelta J, Livolant F, Sikorav JL, J. Biol. Chem., 271, 5656 (1996)

[23] Raspaud E, Olvera M, Sikorav JL, Livolant F, Biophys. J., 74, 381 (1998)

[24] Bloomfield VA, Biopolymers, 44, 269 (1997)