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Enzymatically triggered drug release from microgels controlled by glucose concentration

Version 1.0

Kaniewska, Klaudia; Maćkiewicz, Marcin; Smutok, Oleh; Gonchar, Mykhailo; Katz, Evgeny; Karbarz, Marcin, 2024, "Enzymatically triggered drug release from microgels controlled by glucose concentration", https://doi.org/10.58132/KTNQXN, Dane Badawcze UW, V1

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Description

This study aims to design microgels for controlled drug release via enzymatically generated pH changes in the presence of glucose. Modern medicine is focused on developing smart delivery systems with controlled release capabilities. In response to this demand, we present the synthesis, characterization, and enzymatically triggered drug release behavior of microgels based on poly(acrylic acid) modified with glucose oxidase (GOx) (p(AA-BIS)-GOx). TEM images revealed that the sizes of air-dried p(AA-BIS)-GOx microgels were approximately 130 nm. DLS measurements showed glucose-triggered microgel size changes upon glucose addition, which depended on buffer concentration. Enzymatically triggered drug release experiments using doxorubicin-loaded microgels with immobilized GOx demonstrated that drug release is strongly dependent on glucose and buffer concentration. The highest differences in release triggered by 5 and 25 mM glucose were observed in HEPES buffer at concentrations of 3 and 9 mM. Under these conditions, 80 and 52% of DOX were released with 25 mM glucose, while 47 and 28% of DOX were released with 5 mM glucose. The interstitial glucose concentration in a tumor ranges from ∼15 to 50 mM. Normal fasting blood glucose levels are about 5.5 mM, and postprandial (2 h after a meal) glucose levels should be less than 7.8 mM. The obtained results highlight the microgel’s potential for drug delivery using the enhanced permeability and retention (EPR) effect, where drug release is controlled by enzymatically generated pH changes in response to elevated glucose concentrations.

Subject
Chemistry
Keyword

smart microgels, drug release, enzyme, pH-sensitive system, glucose

Related Publication

Klaudia Kaniewska, Marcin Mackiewicz, Oleh Smutok, Mykhailo Gonchar, Evgeny Katz, and Marcin Karbarz. ACS Biomaterials Science & Engineering 2024 10 (10), 6415-6424. https://doi.org/10.1021/acsbiomaterials.4c01721 https://doi.org/10.1021/acsbiomaterials.4c01721 doi: 10.1021/acsbiomaterials.4c01721

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Fig3A.tab
Tabular Data - Original format: MS Excel (XLSX) - 120 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
3 Variables, 8 Observations - UNF:6:OSCW2SHzrYDPScEefqWNCw==
Figure 3A. Size presented as the hydrodynamic diameter of p(AA-BIS)-GOx microgel as a function of pH.
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Fig3B.xlsx
MS Excel (XLSX) - 8.5 KB - Oct 29, 2024 - 0 Downloads
MD5: 8b1e683e6347e3e773e4420357f56905
License: CC0 Creative Commons Zero 1.0
Figure 3 B. Size of p(AA-BIS) and p(AA-BIS)-GOx microgels before and after addition of glucose (Glu) in water and HEPES buffer with 3, 9, and 25 mM, respectively.
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Fig3B.ods
Unknown - 15.6 KB - Oct 29, 2024 - 1 Download
MD5: c9bd24446e94cd83ab94dfb5c2e63b1b
License: CC0 Creative Commons Zero 1.0
Figure 3 B. Size of p(AA-BIS) and p(AA-BIS)-GOx microgels before and after addition of glucose (Glu) in water and HEPES buffer with 3, 9, and 25 mM, respectively.
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Fig3C.tab
Tabular Data - Original format: MS Excel (XLSX) - 161 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
3 Variables, 11 Observations - UNF:6:imeMKwjOaenKJ8Dp2ZPMTA==
Figure 3C. The distribution of p(AA-BIS)-GOx microgel size presented by intensity in water without glucose addition.
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Fig3D.tab
Tabular Data - Original format: MS Excel (XLSX) - 88 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
3 Variables, 6 Observations - UNF:6:HopAgtlGGHpVhGCvqOjTgg==
Figure 3D. The distribution of p(AA-BIS)-GOx microgel size presented by intensity in water with 25 mM glucose added after 24 h.
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Fig3E.tab
Tabular Data - Original format: MS Excel (XLSX) - 133 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
3 Variables, 9 Observations - UNF:6:4mV/2vJ3z0BhnK4QomvNYA==
Figure 3E. The distribution of p(AA-BIS)-GOx microgel size presented by intensity iin 9 mM HEPES without glucose.
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Fig3F.tab
Tabular Data - Original format: MS Excel (XLSX) - 118 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
3 Variables, 8 Observations - UNF:6:eeh5Yhw+nH/+7dH00gf/Ig==
Figure 3. The distribution of p(AA-BIS)-GOx microgel size presented by intensity with 25 mM of glucose after 24 h.
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Fig4.tab
Tabular Data - Original format: MS Excel (XLSX) - 234 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
9 Variables, 4 Observations - UNF:6:41IKfcZ6H3IP4SqqNmJ3AQ==
Figure 4. ζ Potential of p(AA-BIS), p(AA-BIS)-GOx, and p(AA-BIS)-GOx-DOX in conditions: before, 10 min after, and 24 h after adding glucose (c = 25 mM glucose (Glu)).
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Fig5A.tab
Tabular Data - Original format: MS Excel (XLSX) - 489 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
6 Variables, 14 Observations - UNF:6:dL6gIaIw7E9pPfm2YX66uQ==
Figure 5. Release profiles for p(AA-BIS)-GOx-DOX at different concentrations of HEPES buffer, pH 7: (A) 30 mM. The glucose concentrations were 0 mM (control sample), 5 and 25 mM.
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Fig5B.tab
Tabular Data - Original format: MS Excel (XLSX) - 493 B - Oct 29, 2024 - 0 Downloads
License: CC0 Creative Commons Zero 1.0
6 Variables, 14 Observations - UNF:6:A2Sus+k7+SP75AL6LSG3jQ==
Figure 5. Release profiles for p(AA-BIS)-GOx-DOX at different concentrations of HEPES buffer, pH 7: (B) 9 mM. The glucose concentrations were 0 mM (control sample), 5 and 25 mM.
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