Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility

Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility Publisher

Monajati M^{1, 2} ; Tamaddon AM^{2, 3, 7} ; Abolmaali SS^{2, 7} ; Yousefi G^{2, 3, 7} ; Jafari M^{2, 7} ; Heidari R⁴ ; Borandeh S^{2, 5} ; Azarpira N⁶ ; Dinarvand R¹

Show Affiliations

1. Department of Pharmaceutical Nanotechnology, Tehran University of Medical Sciences, Tehran, Iran
2. Center for Nanotechnology in Drug Delivery, Shiraz University of Medical Sciences, Shiraz, Iran
3. Department of Pharmaceutics, School of Pharmacy, Shiraz University of Medical Sciences, Shiraz, Iran
4. Pharmaceutical Sciences Research Center, Shiraz University of Medical Sciences, Shiraz, Iran
5. Polymer Technology Research Group, Department of Chemical and Metallurgical Engineering, Aalto University, Espoo, 02152, Finland
6. Transplant Research Center, Shiraz University of Medical Sciences, Shiraz, Iran
7. Department of Pharmaceutical Nanotechnology, School of Pharmacy, Shiraz University of Medical Sciences, Shiraz, Iran

Source: New Journal of Chemistry Published:2022

Abstract

Synthesis of a self-assembled supramolecular network was achieved through host-guest chemistry between the inter-molecularly crosslinked α-cyclodextrin with cystamine linker (bisCD) and the random copolymer of poly HPMA and PEG acrylate (P(HPMA-MPEGA) synthesized by RAFT polymerization. Compared to α-CD, bisCD caused strong PEG chain aggregation, resulting in nanogel production at lower concentrations. DSC, TGA, XRD, 1H-NMR and FT-IR confirmed the interaction between PEG chains and bisCD that resulted in the formation of the pseudo-rotaxane complex structure. Depending on the bisCD concentration, particle size, gelation time, and mechanical strength could be tuned. As shown by SEM, nanogels of about 158 ± 39 nm were generated under optimized conditions. In addition, the rate of bisCD nanogel disintegration was accelerated by more than one order of magnitude in phosphate buffer (pH 7.4) after the addition of urea. Hemolysis and histopathology assays also confirmed the in vivo biocompatibility of the bisCD nanogels. Therefore, the bisCD nanogels could be regarded as a new soft nanomaterial for biomedical applications. © 2022 The Royal Society of Chemistry

2. Enhanced L-Asparaginase Stability Through Immobilization in Supramolecular Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin), Biochemical Engineering Journal (2023)

3. Effect of Pegylation on Assembly Morphology and Cellular Uptake of Poly Ethyleneimine-Cholesterol Conjugates for Delivery of Sorafenib Tosylate in Hepatocellular Carcinoma, BioImpacts (2018)

4. 3D Printing of Self-Healing Materials for Drug Delivery Applications: Promises, Advances and Outlooks, Bioprinting (2024)

Experts (# of related papers)

Rassoul Dinarvand (2)

Style	Citing Format
MLA	Monajati M, et al.. "Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility." New Journal of Chemistry, vol. 46, no. 20, 2022, pp. 9931-9943.
APA	Monajati M, Tamaddon AM, Abolmaali SS, Yousefi G, Jafari M, Heidari R, Borandeh S, Azarpira N, Dinarvand R (2022). Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility. New Journal of Chemistry, 46(20), 9931-9943.
Chicago	Monajati M, Tamaddon AM, Abolmaali SS, Yousefi G, Jafari M, Heidari R, Borandeh S, Azarpira N, Dinarvand R. "Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility." New Journal of Chemistry 46, no. 20 (2022): 9931-9943.
Harvard	Monajati M et al. (2022) 'Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility', New Journal of Chemistry, 46(20), pp. 9931-9943.
Vancouver	Monajati M, Tamaddon AM, Abolmaali SS, Yousefi G, Jafari M, Heidari R, et al.. Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility. New Journal of Chemistry. 2022;46(20):9931-9943.
BibTex	@article{ author = {Monajati M and Tamaddon AM and Abolmaali SS and Yousefi G and Jafari M and Heidari R and Borandeh S and Azarpira N and Dinarvand R}, title = {Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility}, journal = {New Journal of Chemistry}, volume = {46}, number = {20}, pages = {9931-9943}, year = {2022} }
RIS	TY - JOUR AU - Monajati M AU - Tamaddon AM AU - Abolmaali SS AU - Yousefi G AU - Jafari M AU - Heidari R AU - Borandeh S AU - Azarpira N AU - Dinarvand R TI - Novel Self-Assembled Nanogels of Peg-Grafted Poly Hpma With Bis(Α-Cyclodextrin) Containing Disulfide Linkage: Synthesis, Bio-Disintegration, and in Vivo Biocompatibility JO - New Journal of Chemistry VL - 46 IS - 20 SP - 9931 EP - 9943 PY - 2022 ER -

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