Cholesterol-Based Compounds: Recent Advances in Synthesis and Applications

Albuquerque, Hélio M. T.; Santos, Clementina M.M.; Silva, Artur M. S.

doi:10.3390/molecules24010116

Cited by 47 publications

(36 citation statements)

References 111 publications

(239 reference statements)

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“…Due to its hydroxyl group which can easily be derivatized, largescale availability and relatively low cost, cholesterol has been used as a starting material for the synthesis of diverse steroid-based molecules. 10,11 A variety of polymers comprising cholesterol moieties in the main chain or as side chains have been reported. 12 Cholesterol end-capped polymers can be synthesized by polymerizations performed in the presence of cholesterolbased molecules that initiate polymerization of monomers.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Cytotoxic Effect of Cholesterol End-Capped Poly(N-Isopropylacrylamide)s on Selected Normal and Neoplastic Cells

Misiak¹,

Niemirowicz-Laskowska²,

Markiewicz³

et al. 2020

IJN

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Purpose: Efficient intracellular delivery of a therapeutic compound is an important feature of smart drug delivery systems (SDDS). Modification of a carrier structure with a cellpenetrating ligand, ie, cholesterol moiety, is a strategy to improve cellular uptake. Cholesterol end-capped poly(N-isopropylacrylamide)s offer a promising foundation for the design of efficient thermoresponsive drug delivery systems. Methods: A series of cholesterol end-capped poly(N-isopropylacrylamide)s (PNIPAAm) with number-average molar masses ranging from 3200 to 11000 g•mol-1 were synthesized by reversible addition-fragmentation chain transfer (RAFT) polymerization from original xanthate-functionalized cholesterol and self-assembled into micelles. The physicochemical characteristics and cytotoxicity of cholesterol end-capped poly(N-isopropylacrylamide)s have been thoroughly investigated. Results: Phase transition temperature dependence on the molecular weight and hydrophilic/ hydrophobic ratio in the polymers were observed in water. Biological test results showed that the obtained materials, both in disordered and micellar form, are non-hemolytic, highly compatible with fibroblasts, and toxic to glioblastoma cells. It was found that the polymer termini dictates the mode of action of the system. Conclusion: The cholesteryl moiety acts as a cell-penetrating agent, which enables disruption of the plasma membrane and in effect leads to the restriction of the tumor growth. Cholesterol end-capped PNIPAAm showing in vitro anticancer efficacy can be developed not only as drug carriers but also as components of combined/synergistic therapy.

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Section: Introductionmentioning

confidence: 99%

Evaluation of Cytotoxic Effect of Cholesterol End-Capped Poly(N-Isopropylacrylamide)s on Selected Normal and Neoplastic Cells

Misiak¹,

Niemirowicz-Laskowska²,

Markiewicz³

et al. 2020

IJN

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“…Cholesterol ( Figure 1 ) ( 1 ) is a fatty substance or a lipid-type molecule that is essential in the human body and also a very important component in the structure of cell membranes [ 11 ]. It is a precursor of hormone production [ 12 ] (e.g., estrogen and testosterone) and it is used to produce bile, which is essential in aiding digestion.…”

Section: Cholesterol and Its Function As A Drug Carriermentioning

confidence: 99%

“…The presence of a hydrophilic 3-hydroxy group on cholesterol, together with a hydrophobic hydrocarbon domain, gives it an amphiphilic nature, making it the most recognized sterol [ 11 ]. Over the years, several organic syntheses have involved the use of cholesterol as a starting material because it is readily available, affordable and its functional groups are easily derivatized.…”

Section: Cholesterol and Its Function As A Drug Carriermentioning

confidence: 99%

“…Cholesterol has been successfully used as carriers for different kinds of drugs including antivirals, antimalarials, anticancer, etc. [ 11 ]. Similar to any other lipid-based carriers, cholesterol-based carriers can be produced fairly easily in large quantities at low cost, they are biodegradable and biocompatible [ 19 ] and they are easily manipulated.…”

Section: Cholesterol and Its Function As A Drug Carriermentioning

confidence: 99%

“…The nature of the target organ and the distance from the site of administration determines the type of system that will be used for drug delivery. Furthermore, cholesterol, an important component in cell membranes [ 11 , 12 , 13 , 14 ], has been utilized in the development of drug delivery systems. Its efficacy as a major component in drug delivery systems has been reported by several researchers.…”

Section: Introductionmentioning

confidence: 99%

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The Efficacy of Cholesterol-Based Carriers in Drug Delivery

Ruwizhi

Aderibigbe

2020

Molecules

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Several researchers have reported the use of cholesterol-based carriers in drug delivery. The presence of cholesterol in cell membranes and its wide distribution in the body has led to it being used in preparing carriers for the delivery of a variety of therapeutic agents such as anticancer, antimalarials and antivirals. These cholesterol-based carriers were designed as micelles, nanoparticles, copolymers, liposomes, etc. and their routes of administration include oral, intravenous and transdermal. The biocompatibility, good bioavailability and biological activity of cholesterol-based carriers make them potent prodrugs. Several in vitro and in vivo studies revealed cholesterol-based carriers potentials in delivering bioactive agents. In this manuscript, a critical review of the efficacy of cholesterol-based carriers is reported.

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PH‐Triggered, Lymph Node Focused Immunodrug Release by Polymeric 2‐Propionic‐3‐Methyl‐maleic Anhydrides with Cholesteryl End Groups

Heck,

Medina‐Montano,

Zhong

et al. 2024

Adv Healthcare Materials

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Gaining spatial control over innate immune activation is of great relevance during vaccine delivery and anticancer therapy, where one aims at activating immune cells at draining lymphoid tissue while avoiding systemic off‐target innate immune activation. Lipid‐polymer amphiphiles show high tendency to drain to lymphoid tissue upon local administration. Here, pH‐sensitive, cholesteryl end group functionalized polymers as stimuli‐responsive carriers are introduced for controlled immunoactivation of draining lymph nodes. Methacrylamide‐based monomers bearing pendant 2‐propionic‐3‐methylmaleic anhydride groups are polymerized by Reversible Addition‐Fragmentation Chain Transfer (RAFT) polymerization using a cholesterol chain‐transfer agent (chol‐CTA). The amine‐reactive anhydrides are conjugated with various amines, however, while primary amines afforded irreversible imides, secondary amines provided pH‐responsive conjugates that are released upon acidification. This can be applied to fluorescent dyes for irreversibly carrier labeling or immunostimulatory Toll‐like receptor (TLR) 7/8 agonists as cargos for pH‐responsive delivery. Hydrophilization of remaining anhydride repeating units with short PEG‐chains yielded cholesteryl‐polymer amphiphiles that showed efficient cellular uptake and increased drug release at endosomal pH. Moreover, reversibly conjugated TLR 7/8 agonist amphiphiles efficiently drained to lymph nodes and increased the number of effectively maturated antigen‐presenting cells after subcutaneous injection in vivo. Consequently, cholesteryl‐linked methacrylamide‐based polymers with pH‐sensitive 2‐propionic‐3‐methylmaleic anhydride side groups provide ideal features for immunodrug delivery.

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Cholesterol-Based Compounds: Recent Advances in Synthesis and Applications

Cited by 47 publications

References 111 publications

<p>Evaluation of Cytotoxic Effect of Cholesterol End-Capped Poly(<em>N</em>-Isopropylacrylamide)s on Selected Normal and Neoplastic Cells</p>

<p>Evaluation of Cytotoxic Effect of Cholesterol End-Capped Poly(<em>N</em>-Isopropylacrylamide)s on Selected Normal and Neoplastic Cells</p>

The Efficacy of Cholesterol-Based Carriers in Drug Delivery

PH‐Triggered, Lymph Node Focused Immunodrug Release by Polymeric 2‐Propionic‐3‐Methyl‐maleic Anhydrides with Cholesteryl End Groups

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