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Journal of Periodontology Dec 2023The aim of this study was to construct crosslinked polylysine-hyaluronic acid microspheres (pl-HAM) ladened with gingival mesenchymal stem cells (GMSCs) and explore its...
Stem-cell based soft tissue substitutes: Engineering of crosslinked polylysine-hyaluronic acid microspheres ladened with gingival mesenchymal stem cells for collagen tissue regeneration and angiogenesis.
BACKGROUND
The aim of this study was to construct crosslinked polylysine-hyaluronic acid microspheres (pl-HAM) ladened with gingival mesenchymal stem cells (GMSCs) and explore its biologic behavior in soft tissue regeneration.
METHODS
The effects of the crosslinked pl-HAM on the biocompatibility and the recruitment of L-929 cells and GMSCs were detected in vitro. Moreover, the regeneration of subcutaneous collagen tissue, angiogenesis and the endogenous stem cells recruitment were investigated in vivo. We also detected the cell developing capability of pl-HAMs.
RESULTS
The crosslinked pl-HAMs appeared to be completely spherical-shaped particles and had good biocompatibility. L-929 cells and GMSCs grew around the pl-HAMs and increased gradually. Cell migration experiments showed that pl-HAMs combined with GMSCs could promote the migration of vascular endothelial cells significantly. Meanwhile, the green fluorescent protein-GMSCs in the pl-HAM group still remain in the soft tissue regeneration area 2 weeks after surgery. The results of in vivo studies showed that denser collagen deposition and more angiogenesis-related indicator CD31 expression in the pl-HAMs+ GMSCs + GeL group compared with the pl-HAMs + GeL group. Immunofluorescence showed that CD44, CD90, CD73 co-staining positive cells surrounded the microspheres in both pl-HAMs + GeL group and pl-HAM + GMSCs + GeL group.
CONCLUSIONS
The crosslinked pl-HAM ladened with GMSCs system could provide a suitable microenvironment for collagen tissue regeneration, angiogenesis and endogenous stem cells recruitment, which may be an alternative to autogenous soft tissue grafts for minimally invasive treatments for periodontal soft tissue defects in the future.
Topics: Polylysine; Hyaluronic Acid; Microspheres; Endothelial Cells; Angiogenesis; Cell Differentiation; Mesenchymal Stem Cells; Gingiva; Stem Cells; Collagen; Tissue Engineering
PubMed: 37133980
DOI: 10.1002/JPER.22-0747 -
Biomaterials Mar 2011Poly(L-lysine) (PLL) is a cationic polyelectrolyte of interest for many applications, including in therapeutic biology for DNA complexation and transfection. Several...
Poly(L-lysine) (PLL) is a cationic polyelectrolyte of interest for many applications, including in therapeutic biology for DNA complexation and transfection. Several non-lysine based polycations have been shown to afford more efficient transfection in live cells than has been achieved with PLL. We find that reconfiguring polylysine into short oligolysine grafts, strung from a hydrophobic polymer backbone, gives transfection reagents greatly superior to PLL, despite having the identical cationic functional groups (i.e., exclusively primary amines). Altering the oligolysine graft length modulates DNA-polymer interactions and transfection efficiency, while incorporating the PKKKRKV heptapeptide (the Simian virus SV40 large T-antigen nuclear localization sequence) pendent groups onto the polymer backbone led to even greater transfection efficiency over the oligolysine-grafted structures. Protein expression levels obtained with these novel polymer transfection reagents were higher than, or comparable to, expression seen in the cases of JetPEI™, FuGENE® 6 and Lipofectamine™ 2000, the later being notorious for cytotoxicity that accompanies high transfection efficiency. The relative strength of the polymer-DNA complex is key to the transfection performance, as judged by serum stability and PicoGreen analysis. Moreover, polyplexes formed from our graft copolymer structures exhibit low cytotoxicity, contributing to the therapeutic promise of these novel reagents.
Topics: Animals; Cell Death; Cell Nucleus; Cell Proliferation; Chromatography, Gel; Cyclooctanes; DNA; Deoxyribonucleases; Heparin; Magnetic Resonance Spectroscopy; Mice; Microscopy, Confocal; Myoblasts; Plasmids; Polylysine; Polymerase Chain Reaction; Polymerization; Reference Standards; Titrimetry; Transfection; Viruses
PubMed: 21215446
DOI: 10.1016/j.biomaterials.2010.12.004 -
The Journal of Physical Chemistry. B Sep 2016The interactions of two highly positively charged short peptide sequences with negatively charged lipid bilayers were explored by fluorescence binding assays and...
The interactions of two highly positively charged short peptide sequences with negatively charged lipid bilayers were explored by fluorescence binding assays and all-atom molecular dynamics simulations. The bilayers consisted of mixtures of phosphatidylglycerol (PG) and phosphatidylcholine (PC) lipids as well as a fluorescence probe that was sensitive to the interfacial potential. The first peptide contained nine arginine repeats (Arg9), and the second one had nine lysine repeats (Lys9). The experimentally determined apparent dissociation constants and Hill cooperativity coefficients demonstrated that the Arg9 peptides exhibited weakly anticooperative binding behavior at the bilayer interface at lower PG concentrations, but this anticooperative effect vanished once the bilayers contained at least 20 mol % PG. By contrast, Lys9 peptides showed strongly anticooperative binding behavior at all PG concentrations, and the dissociation constants with Lys9 were approximately 2 orders of magnitude higher than with Arg9. Moreover, only arginine-rich peptides could bind to the phospholipid bilayers containing just PC lipids. These results along with the corresponding molecular dynamics simulations suggested two important distinctions between the behavior of Arg9 and Lys9 that led to these striking differences in binding and cooperativity. First, the interactions of the guanidinium moieties on the Arg side chains with the phospholipid head groups were stronger than for the amino group. This helped facilitate stronger Arg9 binding at all PG concentrations that were tested. However, at PG concentrations of 20 mol % or greater, the Arg9 peptides came into sufficiently close proximity with each other so that favorable like-charge pairing between the guanidinium moieties could just offset the long-range electrostatic repulsions. This led to Arg9 aggregation at the bilayer surface. By contrast, Lys9 molecules experienced electrostatic repulsion from each other at all PG concentrations. These insights may help explain the propensity for cell penetrating peptides containing arginine to more effectively cross cell membranes in comparison with lysine-rich peptides.
Topics: Lipid Bilayers; Peptides; Phospholipids; Polylysine
PubMed: 27571288
DOI: 10.1021/acs.jpcb.6b05604 -
Biochemical and Biophysical Research... Jan 1994The effects of polylysine on calmodulin were assessed using 1H NMR and sedimentation equilibrium centrifugation. Sedimentation equilibrium centrifugation measurements...
The effects of polylysine on calmodulin were assessed using 1H NMR and sedimentation equilibrium centrifugation. Sedimentation equilibrium centrifugation measurements demonstrated that calmodulin associates with polylysine at calmodulin-polylysine molar ratios ranging from 10:1 to 2.5:1 and when polylysine is increased above the molar ratio of 1:1 a precipitate is formed. At a 1:2.5 calmodulin:polylysine molar ratio, 75% of the calmodulin precipitates from the solution and virtually no polylysine is present in the precipitate. 1H NMR studies of the aromatic region of calmodulin identified chemical shifts of three peaks at a calmodulin:polylysine molar ratio of 1:1. These studies suggest that polylysine associates with calmodulin in aqueous solution and can alter the structure of calmodulin to cause calmodulin self-aggregation.
Topics: Animals; Binding Sites; Brain; Calmodulin; Hydrogen; Magnetic Resonance Spectroscopy; Models, Molecular; Molecular Weight; Polylysine; Protein Binding; Protein Conformation; Swine; Ultracentrifugation
PubMed: 8292035
DOI: 10.1006/bbrc.1994.1044 -
Chemical Communications (Cambridge,... Jan 2015Under an electric field, the complexes formed by DNA and polylysine exhibit novel features, such as selective merging of particles, ejecting of daughter vehicles, and...
Under an electric field, the complexes formed by DNA and polylysine exhibit novel features, such as selective merging of particles, ejecting of daughter vehicles, and differentiation of particles of varying mobility. The mobility of the complex could be three times faster than that of free DNA.
Topics: Animals; DNA; Electricity; Electrophoresis, Microchip; Polylysine; Salmon
PubMed: 25501570
DOI: 10.1039/c4cc07537d -
Biomaterials Jul 2006Cell microencapsulation holds promise for the treatment of many diseases by the continuous delivery of therapeutic products. The biocompatibility of the microcapsules... (Review)
Review
Cell microencapsulation holds promise for the treatment of many diseases by the continuous delivery of therapeutic products. The biocompatibility of the microcapsules and their biomaterials components is a critical issue for the long-term efficacy of this technology. The objective of this paper is to provide detailed information about the principal factors affecting the biocompatibility of alginates and alginate-poly-l-lysine microcapsules, which are the most frequently employed biomaterials and encapsulation devices for cell immobilization, respectively. Some of these factors include the alginate composition and purification, the selection of the polycation, the interactions between the alginates and the polycation, the microcapsule fabrication process, the uniformity of the devices and the implantation procedure. Improved knowledge will lead to the production of standardized transplantation-grade biomaterials and biocompatible microcapsules.
Topics: Alginates; Animals; Biocompatible Materials; Capsules; Cell- and Tissue-Based Therapy; Drug Carriers; Molecular Structure; Particle Size; Polylysine; Surface Properties
PubMed: 16574222
DOI: 10.1016/j.biomaterials.2006.02.048 -
Regulatory Toxicology and Pharmacology... Apr 2003Epsilon-polylysine is a homopolymer of L-lysine, containing approximately 30 L-lysine subunits, as synthesized in aerobic bacterial fermentation by Streptomyces albulus....
Epsilon-polylysine is a homopolymer of L-lysine, containing approximately 30 L-lysine subunits, as synthesized in aerobic bacterial fermentation by Streptomyces albulus. epsilon -Polylysine is approved for food use in Japan as an antimicrobial preservative. A series of pharmacokinetic and metabolic profile studies on epsilon -polylysine have been conducted in rats in order to provide a better understanding of the reason for its lack of toxicological effects in subchronic and chronic feeding bioassays using relatively high concentrations in the diet up to 50000 ppm. As reported in this article, epsilon -polylysine was practically non-toxic in an acute oral toxicity study in rats, with no mortality up to 5 g/kg and was not mutagenic in bacterial reversion assays. Absorption, distribution, metabolism and excretion (ADME) studies on 14C-radiolabeled epsilon -polylysine, given in a single dose to fasted male rats at 100mg/kg, revealed low absorption from the gastrointestinal tract. All but trace amounts of the dosed radioactivity was eliminated by excretion within 168 h and over 97% was accounted for in urine (1.2%), feces (92.9%), or expired air (3%) by 48 h. The sum of the cumulative excretion with routes associated with absorption in urine, expired air and carcass was 6.4% of total recovered radioactivity; approximately 94% of the dose of epsilon -polylysine passed unabsorbed through the gastrointestinal tract in the feces. Whole body autoradiography did not show concentration of absorbed epsilon -polylysine in any tissue or organ. Excretion half-lives of epsilon -polylysine equivalents in blood and plasma were 20 and 3.9 days, likely prolonged by the incorporation into protein of cleaved L-lysine. Metabolic profiles by HPLC analysis of plasma samples suggest that L-lysine is the predominant early metabolic by-product, likely from protease activity in the upper GI tract; only 0.2% of the administered parent compound was found in plasma. At 8-72 h, HPLC profiles show diminishing levels of epsilon -polylysine and L-lysine in plasma, accompanied by a shift to larger peaks of homopolymer fragments of varying subunit length, presumably from microbial degradation of epsilon -polylysine in the lower gut. HPLC profiles of urine and feces collected from 0 to 24 h post-dosing revealed three distinct peaks in urine, the first peak likely to be epsilon -polylysine and epsilon -polylysine less a few amino acid subunits, and the second, L-lysine and the third, a metabolite of L-lysine. Radiolabeled L-lysine was reduced from 67.2% of the radioactivity in plasma at 30 min to 7.5% at 4 h, indicating that L-lysine is readily removed from plasma from essential amino acid incorporation into protein. Based on the findings of the ADME studies and lack of toxicity in safety studies, the proposed use of epsilon -polylysine as a preservative in foods is considered to be safe.
Topics: Absorption; Administration, Oral; Animals; Female; Food Preservatives; Male; Mutagenicity Tests; Mutagens; Polylysine; Rats; Rats, Sprague-Dawley; Toxicity Tests
PubMed: 12726761
DOI: 10.1016/s0273-2300(03)00029-1 -
World Journal of Microbiology &... May 2022Epsilon-poly-L-lysine (ε-PL) is an unusual biopolymer composed of L-lysine produced by several microorganisms, especially by the genus Streptomyces. Due to its... (Review)
Review
Epsilon-poly-L-lysine (ε-PL) is an unusual biopolymer composed of L-lysine produced by several microorganisms, especially by the genus Streptomyces. Due to its excellent antimicrobial activity, good water solubility, high safety, and biodegradable nature, ε-PL with a GRAS status has been widely used in food and pharmaceutical industries. In the past years, studies have focused on the biotechnological production of ɛ-PL, the biosynthetic mechanism of microbial ɛ-PL, and its application. To provide new perspectives from recent advances, the review introduced the methods for the isolation of ɛ-PL producing strains and the biosynthetic mechanism of microbial ɛ-PL. We summarized the strategies for the improvement of ɛ-PL producing strains, including physical and chemical mutagenesis, ribosome engineering and gene engineering, and compared the different metabolic regulation strategies for improving ɛ-PL production, including medium optimization, nutrient supply, pH control, and dissolved oxygen control. Then, the downstream purification methods of ɛ-PL and its recent applications in food and medicine industries were introduced. Finally, we also proposed the potential challenges and the perspectives for the production of ε-PL.
Topics: Biopolymers; Biotechnology; Culture Media; Polylysine; Streptomyces
PubMed: 35637397
DOI: 10.1007/s11274-022-03304-6 -
Journal of Microencapsulation 2002Alginate-polylysine-alginate capsules containing insulin-producing cells have been used as a bio-artificial pancreas in the treatment of diabetes mellitus. In a search...
Alginate-polylysine-alginate capsules containing insulin-producing cells have been used as a bio-artificial pancreas in the treatment of diabetes mellitus. In a search for microcapsules with improved diffusion characteristics, a high voltage system was developed that produces 250,000 beads/min with a diameter of 160 microm +/- 3-5%. The diameter of the beads could be varied between 160-700 microm depending on the needle diameter and construction, the voltage, the distance between the electrodes and the flow of alginate solution. Ca-alginate beads with diameters of 200 and 500 microm were produced by the high voltage electrostatic system. The 200 microm beads were sensitive to poly-L-lysine (PLL) exposure and had to be washed in ion-free solution to avoid collapse. The 200 microm beads swelled more than the 500 microm beads in the washing and PLL treatment. Also, the porosity of the capsules changed with size, but capsules impermeable to tumour necrosis factor (TNF) could be made by exchanging PLL with poly-D-lysine (PDL) for the 500 microm beads. The 200 microm beads were impermeable to IgG after PLL exposure. Islets of Langerhans were encapsulated in alginate-PLL-alginate capsules and evaluated by measuring protruding islets and insulin production. Islets in microcapsules made by the high voltage electrostatic system did not function differently from islets in larger microcapsules made by an air jet system. In conclusion, alginate capsules made by a high voltage electrostatic system enable large-scale production of small capsules with a narrow size distribution that can meet the functional properties of larger capsules by small changes in the encapsulation procedure.
Topics: Alginates; Animals; Capsules; In Vitro Techniques; Insulin; Insulin Infusion Systems; Insulin Secretion; Islets of Langerhans; Membranes, Artificial; Mice; Particle Size; Permeability; Polylysine; Static Electricity
PubMed: 12433304
DOI: 10.1080/02652040210144243 -
ChemMedChem Jul 2006
Topics: Cell Line, Tumor; Fluorescence; Humans; Microscopy, Confocal; Peptide Hydrolases; Photosensitizing Agents; Polylysine
PubMed: 16902920
DOI: 10.1002/cmdc.200600053