Cell‐penetrating peptides: Nanocarrier for macromolecule delivery in living cells

Abstract: SummaryNovel classes and applications of cell-penetrating peptides (CPPs) are being constantly discovered since they were first identified 2 decades ago. These short cationic peptides (nanomolecules) either by covalent binding or by noncovalent binding can traverse cell membranes and deliver a variety of molecules that are unable to overcome the permeability barrier in their own capacity. The ability of the CPPs to deliver variety of macromolecules, such as oligonucleotides, therapeutic drugs, proteins, and me… Show more

“…15 For biological and clinical applications, quantum dots (QDs) are widely studied for various purposes including labeling, imaging, targeted drug delivery, and photodynamic therapy. [16][17][18] Various types of QDs have been extensively explored and utilized in cell-or animal-based evaluations of toxicity and biocompatibility in vitro or in vivo, even at the molecular level. [19][20][21] Cadmium-tellurium (CdTe) QDs are typical semiconductor nanomaterials with good fluorescence characteristics; they have attracted considerable attention because of their unique optical properties and their potential applications in the manufacturing of chemical sensors, optical switches, display devices, and biological labels.…”

Synergetic effect of functional cadmium–tellurium quantum dots conjugated with gambogic acid for HepG2 cell-labeling and proliferation inhibition

“…15 For biological and clinical applications, quantum dots (QDs) are widely studied for various purposes including labeling, imaging, targeted drug delivery, and photodynamic therapy. [16][17][18] Various types of QDs have been extensively explored and utilized in cell-or animal-based evaluations of toxicity and biocompatibility in vitro or in vivo, even at the molecular level. [19][20][21] Cadmium-tellurium (CdTe) QDs are typical semiconductor nanomaterials with good fluorescence characteristics; they have attracted considerable attention because of their unique optical properties and their potential applications in the manufacturing of chemical sensors, optical switches, display devices, and biological labels.…”

Synergetic effect of functional cadmium–tellurium quantum dots conjugated with gambogic acid for HepG2 cell-labeling and proliferation inhibition

“…18, № 6 фрагментами белков вирусов, растений, живот-ных. Примерами подобных пептидов являются: ТАТ, представляющий собой фрагмент капсид-ного белка вируса иммунодефицита человека, пептид VP22 -фрагмент белка вируса просто-го герпеса, пенетратин или pANTP -фрагмент белка, участвующего в регуляции процессов развития дрозофилы, и другие пептиды [2,6]. На основе природных структур разработаны и синтезированы химерные молекулы, облада-ющие способностью транслоцироваться через мембрану клеток млекопитающих, а также пере-носить в клетки разнообразные лекарственные препараты, имеющие внутриклеточные мише-ни: siRNA, антисмысловые олигонуклеотиды, плазмиды, наночастицы различной природы, липосомы, разнообразные противоопухоле-вые или противоинфекционные лекарственные агенты [3,4,9].…”

Internalization of Antimicrobial Peptide Acipensin 1 Into Human Tumor Cells

“…126,127 Cell-penetrating peptides (CPPs) have high translocational activity and facilitate cellular uptakes of large molecules and nanoparticulates. 128,129 Their membrane translocation is mediated by different pathways including direct penetration, endocytosis, and formation of a transitory structure. Trans-activating transcriptional activators (TATs) are examples of CPPs.…”

Concepts and practices used to develop functional PLGA-based nanoparticulate systems