Aminoglycosides: From Antibiotics to Building Blocks for the Synthesis and Development of Gene Delivery Vehicles

Bellucci, Maria Cristina; Volonterio, Alessandro

doi:10.3390/antibiotics9080504

Cited by 18 publications

(14 citation statements)

References 79 publications

(113 reference statements)

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“…Owing to these features, aminoglycosides were conjugated with lipophilic segments such as saturated or unsaturated alkyl chains and cholesterol derivatives for gene delivery. [ 120 ]…”

Section: Aminoglycoside‐based Biomaterialsmentioning

confidence: 99%

“…The first aminoglycoside‐derived giant lipid was synthesized through a precise site‐selective conjugation of cholesterol at the 6'‐NH 2 of kanamycin. [ 120,121 ] As kanamycin possesses multiple cationic charges on the headgroup, the self‐assembled vesicular nanostructure could efficiently condense nuclei acids into nanoparticles. The Kana–Chol conjugate was found to be highly efficient for the delivery of genes into various mammalian cells either alone or co‐formulated with dioleoylphosphatidylethanolamine (DOPE).…”

Section: Aminoglycoside‐based Biomaterialsmentioning

confidence: 99%

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Aminoglycoside‐Based Biomaterials: From Material Design to Antibacterial and Gene Delivery Applications

Yang

Cheng

et al. 2021

Adv Funct Materials

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Aminoglycosides are a family of naturally isolated or chemically semi‐synthesized antibiotics consisting of aminocyclitols with several amino and saccharide units. The unique molecule structures render aminoglycosides promising building blocks with high reactivity to perform various non‐covalent and covalent reactions, and they are further employed to rationally fabricate versatile materials, such as hydrogels, amphiphiles, hyperbranched polymers, biointerfaces, and nanoparticles. Despite aminoglycosides are widely used in clinics to treat bacterial infections, almost all the efforts are focused on molecular modifications to reduce their toxicities and overcome antibiotic resistance, while their actions as building blocks to construct biomaterials are scarcely discussed. In this feature article, the current progress on the rational design, emergent properties, and promising biological applications of aminoglycoside‐based biomaterials are summarized. It is believed that this paper may provide guidance to develop new biomaterials using natural functional molecules as building blocks, and start a new life of aminoglycosides from the view of materials science.

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“…Owing to these features, aminoglycosides were conjugated with lipophilic segments such as saturated or unsaturated alkyl chains and cholesterol derivatives for gene delivery. [ 120 ]…”

Section: Aminoglycoside‐based Biomaterialsmentioning

confidence: 99%

Section: Aminoglycoside‐based Biomaterialsmentioning

confidence: 99%

Aminoglycoside‐Based Biomaterials: From Material Design to Antibacterial and Gene Delivery Applications

Yang

Cheng

et al. 2021

Adv Funct Materials

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“…AG conjugates to an efflux pump inhibitor or to an antibiotic drug of another class (antibiotic hybrids) can promote, as adjuvants, the uptake of antibiotics through the OM of Gram-negative bacteria via the self-promoted uptake mechanism by displacement of the divalent cations (Ca 2+ or Mg 2+ ), which stabilize LPS [101][102][103][104][105][106][107][108][109][110][111][112][113][114][115][116]. The high affinity of strongly lipophilic AAGs of the first and second types for nucleic acids was used to develop efficient non-antibacterial vehicles for nucleic acid uptake in mammalian cells [129][130][131][132][133][134][135]. AAGs have also been employed for drug delivery [158,159] and their cationic characters should be exploited to deliver anionic drugs.…”

Section: Discussionmentioning

confidence: 99%

“…AAGs have also received interest in relation to different medicinal applications, especially for intracellular delivery of active agents, for example, nucleic acids or analogues, non-covalently or covalently bound to AAGs or AGs. The synthesis and development of gene delivery vehicles was recently reviewed [129]. Here, we mainly illustrate the precursor works of J.M.…”

Section: Gene and Sirna Deliverymentioning

confidence: 99%

Amphiphilic Aminoglycosides as Medicinal Agents

Dezanet

Kempf

Mingeot‐Leclercq

et al. 2020

IJMS

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The conjugation of hydrophobic group(s) to the polycationic hydrophilic core of the antibiotic drugs aminoglycosides (AGs), targeting ribosomal RNA, has led to the development of amphiphilic aminoglycosides (AAGs). These drugs exhibit numerous biological effects, including good antibacterial effects against susceptible and multidrug-resistant bacteria due to the targeting of bacterial membranes. In the first part of this review, we summarize our work in identifying and developing broad-spectrum antibacterial AAGs that constitute a new class of antibiotic agents acting on bacterial membranes. The target-shift strongly improves antibiotic activity against bacterial strains that are resistant to the parent AG drugs and to antibiotic drugs of other classes, and renders the emergence of resistant Pseudomonas aeruginosa strains highly difficult. Structure–activity and structure–eukaryotic cytotoxicity relationships, specificity and barriers that need to be crossed in their development as antibacterial agents are delineated, with a focus on their targets in membranes, lipopolysaccharides (LPS) and cardiolipin (CL), and the corresponding mode of action against Gram-negative bacteria. At the end of the first part, we summarize the other recent advances in the field of antibacterial AAGs, mainly published since 2016, with an emphasis on the emerging AAGs which are made of an AG core conjugated to an adjuvant or an antibiotic drug of another class (antibiotic hybrids). In the second part, we briefly illustrate other biological and biochemical effects of AAGs, i.e., their antifungal activity, their use as delivery vehicles of nucleic acids, of short peptide (polyamide) nucleic acids (PNAs) and of drugs, as well as their ability to cleave DNA at abasic sites and to inhibit the functioning of connexin hemichannels. Finally, we discuss some aspects of structure–activity relationships in order to explain and improve the target selectivity of AAGs.

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“…The full potential of polymer-based delivery systems has yet to be realized. In 2020, aminoglycosides, a class of naturally occurring and semi-synthetic antibiotics, have been investigated as new cationic polymeric vectors to facilitate the transfer of genes into cells ( 29 ).…”

Section: Methodsmentioning

confidence: 99%

Non-viral Vectors in Gene Therapy: Recent Development, Challenges, and Prospects

Gao

2021

AAPS J

211

156

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Gene therapy has been experiencing a breakthrough in recent years, targeting various specific cell groups in numerous therapeutic areas. However, most recent clinical studies maintain the use of traditional viral vector systems, which are challenging to manufacture cost-effectively at a commercial scale. Non-viral vectors have been a fast-paced research topic in gene delivery, such as polymers, lipids, inorganic particles, and combinations of different types. Although non-viral vectors are low in their cytotoxicity, immunogenicity, and mutagenesis, attracting more and more researchers to explore the promising delivery system, they do not carry ideal characteristics and have faced critical challenges, including gene transfer efficiency, specificity, gene expression duration, and safety. This review covers the recent advancement in non-viral vectors research and formulation aspects, the challenges, and future perspectives.

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Aminoglycosides: From Antibiotics to Building Blocks for the Synthesis and Development of Gene Delivery Vehicles

Cited by 18 publications

References 79 publications

Aminoglycoside‐Based Biomaterials: From Material Design to Antibacterial and Gene Delivery Applications

Aminoglycoside‐Based Biomaterials: From Material Design to Antibacterial and Gene Delivery Applications

Amphiphilic Aminoglycosides as Medicinal Agents

Non-viral Vectors in Gene Therapy: Recent Development, Challenges, and Prospects

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