Acid‐base properties of poly(amidoamine)s

Ranucci, Elisabetta; Ferruti, Paolo; Lattanzio, Ettore; Manfredi, Amedea; Rossi, Manuela; Mussini, Patrizia R.; Chiellini, Emo; Bartoli, Cristina

doi:10.1002/pola.23737

Cited by 39 publications

(65 citation statements)

References 34 publications

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“…The titration curves were processed assuming that all repeating units behave independently and, for the same reason, the dissociation constants were not biased by the polymer molecular weight. In other words, no significant polyelectrolyte effect was considered . The p K a values obtained are summarized in Table , where, for comparison purposes, the p K a values L ‐arginine, from literature data, are also reported.…”

Section: Resultsmentioning

confidence: 99%

“…As regards L‐ARGO7‐ co ‐MBAP, potentiometric measurements revealed only four p K a values, namely p K a1 ≤ 2.0, p K a2 = 5.7, p K a3 = 7.2 and p K a4 > 12.0. p K a2 and p K a4 were virtually identical to p K a1 and p K a3 of L‐ARGO7. Considering that the p K a values determined for several 2‐piperazine‐based PAAs were approximately 7.3 and 3.3, p K a1 of L‐ARGO7‐ co ‐MBAP corresponded to the first de‐protonation of the di‐piperazinium ion and p K a3 results from the merging of the higher p K a of the piperazine moiety with that of the tertiary amine group of the L ‐arginine moiety.…”

Section: Resultsmentioning

confidence: 99%

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Amphoteric, Prevailingly Cationic L‐Arginine Polymers of Poly(amidoamino acid) Structure: Synthesis, Acid/Base Properties and Preliminary Cytocompatibility and Cell‐Permeating Characterizations

Ferruti

Mauro

Falciola

et al. 2013

Macromolecular Bioscience

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A linear amphoteric poly(amidoamino acid), L-ARGO7, is prepared by Michael-type polyaddition of L-arginine with N,N'-methylenebisacrylamide. Chain-extension of acrylamide end-capped L-ARGO7 oligomers with piperazine leads to high-molecular-weight copolymers in which L-arginine maintains its absolute configuration. Acid/base properties of L-ARGO7 polymers show isolectric points of ≈ 10 and positive net average charges per repeating unit at pH = 7.4 from 0.25 to 0.40. These arginine-rich synthetic polymers possibly share some of the unique biological properties of polyarginine cell-permeating peptides. In vitro tests with mouse embryo fibroblasts balb/3T3 clone A31 show that L-ARGO7 polymers are endowed with effective cell internalization ability combined with minimal cytotoxicity.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Amphoteric, Prevailingly Cationic L‐Arginine Polymers of Poly(amidoamino acid) Structure: Synthesis, Acid/Base Properties and Preliminary Cytocompatibility and Cell‐Permeating Characterizations

Ferruti

Mauro

Falciola

et al. 2013

Macromolecular Bioscience

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“…On the other side, the biocompatibility of PAAs is usually higher the lower their cationic charge at pH 7.4. A library of acid‐base properties of PAAs indicates that the piperazine‐derived ones are the weakest of all, with p K a1 and p K a2 in the order of 7.4 and 3.8, respectively, independently of the structure of the bis(acrylamide) moiety 27. Therefore, it can be predicted that at physiological pH only one‐half of the piperazine moieties bears a positive charge, resulting in a modest density of positive charges along the polymer chain, on the average one every 500 Da.…”

Section: Resultsmentioning

confidence: 99%

Degradable Poly(amidoamine) Hydrogels as Scaffolds for In Vitro Culturing of Peripheral Nervous System Cells

Mauro

Manfredi

Ranucci

et al. 2012

Macromolecular Bioscience

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This paper reports on the synthesis and physico-chemical, mechanical, and biological characterization of two sets of poly(amidoamine) (PAA) hydrogels with potential as scaffolds for in vivo peripheral nerve regeneration. They are obtained by polyaddition of piperazine with N,N'-methylenebis(acrylamide) or 1,4-bis(acryloyl)piperazine with 1,2-diaminoethane as cross-linking agent and exhibit a combination of relevant properties, such as mechanical strength, biocompatibility, biodegradability, ability to induce adhesion and proliferation of Schwann cells (SCs) preserving their viability. Moreover, the most promising hydrogels, that is those deriving from 1,4-bis(acryloyl)piperazine, allow the in vitro growth of the sensitive neurons of the dorsal root ganglia, thus getting around a critical point in the design of conduits for nerve regeneration.

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“…192 Therefore using aminoacids as starting monomer leads to more cytobiocompatible PAAs. 193 The PAAs in their salt 65 forms together with different counter ions including acetate, citrate and lactate were found to be non-hemolytic and noncytotoxic at the pH 5.5. 194 Additionally, some other factors including concentration of PAAs, exposure time to cells, density of cationic residues interacting with the cell and the basic 70 monomer structure can also affect the cytotoxicity of PAAs.…”

Section: Polyamidoamine (Pamam) Dendrimermentioning

confidence: 97%

Polyamidoamine and polyglycerol; their linear, dendritic and linear–dendritic architectures as anticancer drug delivery systems

2015

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Despite immense investigations in the field of cancer diagnosis and therapy in recent decades, cancer is still the major cause of morbidity and mortality all over the world. Recently, with the advancement of nanotechnology, designing and preparation of efficient nano-sized structures having the potential of diagnosis and treatment of cancer have been proposed. Among different types of nano-sized materials, biocompatible polymers are seemed to be innovative tools with huge potential in cancer treatment. Advancement in polymer chemistry 10 55 gene delivery 2-7 , cancer diagnosis and therapy 8-11 , nanocarriers 12, 13 , nanomedicine 14-16 , and biomedical applications.

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Acid‐base properties of poly(amidoamine)s

Cited by 39 publications

References 34 publications

Amphoteric, Prevailingly Cationic L‐Arginine Polymers of Poly(amidoamino acid) Structure: Synthesis, Acid/Base Properties and Preliminary Cytocompatibility and Cell‐Permeating Characterizations

Amphoteric, Prevailingly Cationic L‐Arginine Polymers of Poly(amidoamino acid) Structure: Synthesis, Acid/Base Properties and Preliminary Cytocompatibility and Cell‐Permeating Characterizations

Degradable Poly(amidoamine) Hydrogels as Scaffolds for In Vitro Culturing of Peripheral Nervous System Cells

Polyamidoamine and polyglycerol; their linear, dendritic and linear–dendritic architectures as anticancer drug delivery systems

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