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Carrier design: Synthesis and conformational studies of poly (L-lysine) based branched polypeptides with hydroxyl groups in the side chains (1997)

Mezö, G. ; Kajtár, J. ; Nagy, I. ; [et al.]

New York : Wiley-Blackwell

Biopolymers 42 (1997), S. 719-730

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ISSN: 0006-3525

Keywords: carrier design ; poly (L-lysine) ; branched polypeptides ; hydroxyl groups ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: In the present study the development of a new series of branched polypeptides that contain hydroxyl groups in side chains is reported. Serine or threonine were attached by 1-hydroxy-benzotriazole catalyzed active ester method to the N-terminals of oligo (DL-alanine) chains grafted to a polylysine backbone resulted in poly[Lys-(Ser1-DL-Alam)] (SAK) and poly-[Lys-(Thri-DL-Alam)] (TAK). Ser was coupled also directly to the η-amino groups of polylysine followed by polymerization of N-carboxy-DL-alanine anhydride resulting oligo (DL-Ala) chain terminals. In this way a reverse sequence was built up in the side chain corresponding to the poly[Lys-(DL-Alam-Seri)] (ASK). The number of hydroxyl groups in the polymer was increased by the synthesis of a branched polypeptide with oligo (DL-serine) branches instead of oligo (DL-alanine) ones - poly[Lys-(DL-Serm)] (SK). Classification of solution conformations of branched polypeptides was carried out by CD spectroscopy performed in water solution of various pH values and ionic strengths. Incorporation of single Ser residues in poly[Lys-(Xi)]-type polypeptides markedly promotes the formation of ordered structure without resulting precipitation even in high salt concentration. The presence of branches with multiple DL-Ser residues resulted in a slightly decreased ability of the polypeptide backbone to adopt an ordered conformation. Comparison of the CD properties of the SAK-ASK pair demonstrates that these compounds are similar, showing an increased tendency to form an ordered spatial arrangement in solution at elevated pH or ionic strength; however, differences in their CD spectra suggest that SAK has higher capability to form regular conformation under comparable conditions. The replacement of Ser by the Thr residue in poly[Lys-(Xi-DL-Alam)] induced a conformational transition and TAK exhibited a more helical structure. These results might indicate that not only hydrophobic or ionic attraction, but also H-bond interaction, can play a role in the formation and/or stabilization of ordered conformation of branched polypeptides. Findings with the hydroxyl group containing polymers reported in this paper can also explain their prolonged shelf stability and high water solubility. © 1997 John Wiley & Sons, Inc. Biopoly 42: 719-730, 1997

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

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Interaction of branched chain polymeric polypeptides with phospholipid model membranes (1998)

Nagy, I. B. ; Haro, I. ; Alsina, M. A. ; [et al.]

New York : Wiley-Blackwell

Biopolymers 46 (1998), S. 169-179

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ISSN: 0006-3525

Keywords: macromolecular carriers ; drug targeting and delivery ; branched chain synthetic polypeptides ; membrane-synthetic polypeptide interaction ; lipid monolayers/bilayers ; polymer therapeutics ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The surface properties at the air/water interface and the interaction of branched chain polymeric polypeptides with a general formula poly[Lys-(DL-Alam-X1)], where X = Π (AK), Ser (SAK), or Glu (EAK), with phospholipids were investigated. Polylysine derivatives with polycationic (SAK, AK) or amphoteric (EAK) were capable to spread and form stable monomolecular layers. The stability of monolayers at the air/water interface was dependent on the side-chain terminal amino acid residue of polymers and can be described by SAK 〈 AK 〈 EAK order. The area per amino acid residue values calculated from compression isotherms were in the same range as compared to those of linear poly-α-amino acids and proteins. Moreover, these polymers interact with phospholipid monomolecular layers composed of dipalmitoyl phosphatidyl choline (DPPC) or DPPC/PG (PG: phosphatidyl glycerol; 95/5, mol/mol). Data obtained from compression isotherms of phospholipids spread on aqueous polymer solutions at different initial surface pressure indicated that insertion into lipid monolayers for SAK or AK is more pronounced than for EAK. The interaction between branched polypeptides and phospholipid membranes was further investigated using lipid bilayers with DPPC/PG and fluorescent probes located either at the polar surface [1-(4-trimethylammonium-phenyl)-6-phenyl-1,3,5-hexatriene (TMA-DPH) sodium anilino naphthalene sulfonate (ANS)] or within the hydrophobic core (DPH) of the liposome. Changes in fluorescence intensity and in polarization were observed when TMA-DPH or ANS, but not DPH were used. Comparative data also indicate that all three polymers interact only with the outer surface of the bilayer, but even the most marked penetration of polycationic polypeptide (SAK) did not result in alteration of the ordered state of the alkyl chains in the bilayer. Taken together, data obtained from mono- or bilayer experiments suggest that the interaction between branched polymers and phospholipids are highly dependent on the charge properties (Ser vs Glu) and on the identity (Ser vs Ala) of side-chain terminating amino acids. The binding of polymers to the model membranes could be mainly driven by electrostatic forces, but the significant role of hydrophilic properties in case of SAK cannot be excluded. © 1998 John Wiley & Sons, Inc. Biopoly 46: 169-179, 1998

Additional Material: 8 Ill.

Type of Medium: Electronic Resource

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