Hyaluronic Acid–Zein Core-Shell Nanoparticles Improve the Anticancer Effect of Curcumin Alone or in Combination with Oxaliplatin against Colorectal Cancer via CD44-Mediated Cellular Uptake

Liu, Lu; Yang, Shufang; Chen, Feng; Cheng, Ka‐Wing

doi:10.3390/molecules27051498

Cited by 18 publications

(5 citation statements)

References 47 publications

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“…This mechanism was verified through the assay of the curcumin intracellular content after the inhibition of the expression of CD44, where the results showed significant reduction in the curcumin intracellular content in the HCT116 and HT29 cells. This showed that the endocytosis mechanism is important for the HZ-CUR nanoparticles uptake [66].…”

Section: Examples For the Effect Of Zein Nanoparticles On Different T...mentioning

confidence: 89%

Protein and Peptide-based Nanoparticles as an emerging strategy to tackle cancer drug resistance

Abdellatif,

Hassanin,

Mahmoud

et al. 2023

Alexandria Journal of Science and Technology

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Cancer treatment has been confronted with serious challenges. These challenges stemmed from the heterogeneity of tumor microenvironment, as well as genetic and epigenetic factors related to cancer cells. The changes imposed by the tumor lead to the development of acquired resistance. Drug efflux, inhibition of apoptosis and immunosuppression are examples of resistance mechanisms imposed by cancer cells. Nanotechnology has sought to overcome these resistance mechanisms through enhanced cellular uptake, activation of alternative pathways by combined drug delivery, or targeting immune cells leading to their activation and proliferation. Several types of nanomedicine-based systems were implemented; however, protein and peptide nanoparticles remain one versatile tool in drug delivery, providing preferable physicochemical and biological implications. Notably, protein and peptide nanocarriers can also exhibit enhanced cellular uptake, the possibility of tuned drug release, and hence, better tumor targetability. Here, we present the methods of fabrication, physicochemical characteristics, biological mplications, and future perspectives, focusing on overcoming cancer drug resistance. Review

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Section: Examples For the Effect Of Zein Nanoparticles On Different T...mentioning

confidence: 89%

Protein and Peptide-based Nanoparticles as an emerging strategy to tackle cancer drug resistance

Abdellatif,

Hassanin,

Mahmoud

et al. 2023

Alexandria Journal of Science and Technology

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“…The oHA can compete for the binding of endogenous HA to CD44 by inhibiting the MDR and other ABC transporter protein expression, breaking the "HA-CD44" barrier in vivo, reversing the chemotherapy resistance of tumors, and penetrating the colonic mucosa more potently to play a role. Liu et al [85] assessed the potential of CUR-encapsulated HA-zein composite nanoparticles (HZ-CUR) as an oral adjuvant for OXA-based chemotherapy in representative CRC models in mice. The specific recognition/interaction between HA and CD44 contributes to the tumor-targeting property of HA-coated nanocarriers.…”

Section: Oral Nano-formulations For Overcoming Intestinal Barriersmentioning

confidence: 99%

Current Advances of Nanomaterial-Based Oral Drug Delivery for Colorectal Cancer Treatment

Wang,

Chen,

Huang

et al. 2024

Nanomaterials

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Colorectal cancer (CRC) is a common malignant tumor, and traditional treatments include surgical resection and radiotherapy. However, local recurrence, distal metastasis, and intestinal obstruction are significant problems. Oral nano-formulation is a promising treatment strategy for CRC. This study introduces physiological and environmental factors, the main challenges of CRC treatment, and the need for a novel oral colon-targeted drug delivery system (OCDDS). This study reviews the research progress of controlled-release, responsive, magnetic, targeted, and other oral nano-formulations in the direction of CRC treatment, in addition to the advantages of oral colon-targeted nano-formulations and concerns about the oral delivery of related therapeutic agents to inspire related research.

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“…This nding veri ed active targeting of CD44 receptor in C26 cells via HA as a ligand. Other studies have also reported the uptake of HA-decorated NPs by CD44-mediated endocytosis [24,37,38]. For instance, Shahriari et al indicated that the HA-coated platform is able to enhance the cellular internalization and cytotoxicity against CD44 overexpressing 4T1 cells [26].…”

Section: Flow Cytometry Studymentioning

confidence: 99%

Synthesis of a smart pH sensitive micelle containing hyaluronic acid-curcumin bioconjugate against colorectal cancer

Hazrati,

Dehghani,

Taghavi

et al. 2024

Preprint

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In the current study, we fabricated a pH-sensitive self-assembled CD44-targeted therapeutic micelle, comprising curcumin (CUR)-hyaluronic acid (HA) conjugate. At the first stage, the biopolymer, HA, as a back bone was attached to ethylene glycol vinyl ether (equivalent to 50% of the carboxylic acids of HA) and then hydroxyl of curcumin was attached to this linker to form a pH-responsive acetal linkage. The prepared HA-CUR conjugate was self-assembled and formed a micellar structure with size of 84 nm. The release of CUR from the prepared platform illustrated a controlled, sustained release at pH 7.4 while it was significantly accelerated at pH 5.4. The cytotoxicity and cellular uptake of the platform were evaluated against C26 as a CD44 positive and CHO as CD44 negative cells. The cytotoxicity and cellular uptake study showed higher internalization and cellular toxicity of the synthesized platform in C26 cells compared with CHO cells. In vivo study demonstrated desirable therapeutic efficacy of HA-CUR toward C26 tumor growth suppression and survival rate of BALB/c mice. These findings suggested HA-CUR as a hopeful natural product-based nanomedicine for active targeting and delivery of CUR to colon adenocarcinoma.

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Hyaluronic Acid–Zein Core-Shell Nanoparticles Improve the Anticancer Effect of Curcumin Alone or in Combination with Oxaliplatin against Colorectal Cancer via CD44-Mediated Cellular Uptake

Cited by 18 publications

References 47 publications

Protein and Peptide-based Nanoparticles as an emerging strategy to tackle cancer drug resistance

Protein and Peptide-based Nanoparticles as an emerging strategy to tackle cancer drug resistance

Current Advances of Nanomaterial-Based Oral Drug Delivery for Colorectal Cancer Treatment

Synthesis of a smart pH sensitive micelle containing hyaluronic acid-curcumin bioconjugate against colorectal cancer

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