Zbigniew Maćkiewicz

Complexes of Cu(II) with Asn-Ser-Phe-Arg-Tyr-NH2; an example of metal ion-promoted conformational organization which results in exceptionally high complex stability

The pentapeptide fragment of ANF, Asn-Ser-Phe-Arg-Tyr-NH2, coordinates to Cu(II) using the same four nitrogen donor centers as simple pentapeptides such as pentaalanine yet the complexes are of much higher stability as a result of a highly organized side-chain structure which is present in the complex but absent from the free ligand.

How non-bonding amino acid side-chains may enormously increase the stability of a Cu(II)—peptide complex

Abstract A combined pH-metric and spectroscopic (UV—Vis, circular dichroism and electron paramagnetic resonance) study of Cu(II) binding to analogues of Asn-Ser-Phe-Arg-Tyr-NH 2 systematically substituted with Ala residues revealed the presence of indirect, additive conformational effects resulting in a very high stability enhancement for 4N complexes. The major contribution to the stability is exerted by non-binding side-chains of 4th and 5th amino acids. This effect is explained on the basis of spectroscopic data by the formation of a secondary fence shielding the Cu(II) binding site from the bulk of the solution. Such a structure, not reported previously, is of possible importance for the understanding of interactions of metal ions with proteins.

Cu(II) ion coordination to SPARC: a model study on short peptide fragments

SPARC (secreted protein, acidic and rich in cysteine) is a glycoprotein of the extracellular matrix that mediates the cell-matrix interactions. It plays also a role in angiogenesis, tumorigenesis, caractogenesis and wound healing. The human SPARC consists of three distinct modules. Module II is follistatin-like and its hydrolysis gives rise to a number of oligopeptides that can regulate angiogenesis in vivo and the biological activity of which has been related to their association with endogenous or exogenous copper ion. In order to completely understand the biological role of metal complexes formed by SPARC and its fragments, more information is needed on their stoichiometry, stability and structure in solution. In the present paper a potentiometric and spectroscopic investigation on Cu(II) complexes with the three SPARC122–126, SPARC121–126 and SPARC120–126 fragments, protected at both their amino and carboxylic ends, is reported. These peptides (Ac-HKLHL-NH2, Ac-GHKLHL-NH2 and Ac-KGHKLHL-NH2, respectively) constitute good models for the strong copper-binding site of the protein. The behaviour of the three ligands is very similar: complex formation is started by the two His residues, subsequently involving up to three amido nitrogens, as pH increases. The coordination of the two histydyl imidazoles promotes amide ionization in the physiological pH range and this can explain SPARC binding to the Cu(II) ion.

Human heat shock protein 60 (409–424) fragment is recognized by serum antibodies of patients with acute coronary syndromes

Acute coronary syndromes (ACS), including unstable angina (UA) and acute myocardial infarction (MI), are clinical manifestations of a progressive atherosclerotic process. Antibodies (Ab) to heat shock proteins (hsp) have been reported to be associated with atherosclerosis. Blood samples from 35 patients with ACS and 20 healthy volunteers were tested for Ab to human hsp60 by an enzyme-linked immunosorbent assay (ELISA). Levels of specific serum Ab against hsp60 were significantly elevated in patients with ACS when compared to clinically healthy subjects. To determine the antigenic determinants recognized by these Ab, antibody binding to seven peptides, selected from the hydrophilic and acrophilic regions of the human hsp60 molecule, was assessed. Despite the individual variation in the immune response among patients, one immunodominant region was revealed corresponding to the hsp60 (409-424) peptide. The identification of this epitope may be important for understanding the function of this protein in the atherosclerotic process.

Specific interactions of Cu2+ ions with fragments of envelope protein of hepatitis B virus.

Potentionmetric and spectroscopic (EPR, CD and absorption spectra) data have shown that a fragment of envelope proteins of the hepatitis B virus could be very specific bind molecules for Cu2+ ions using arginine lateral NH2 donor sites. The presence of Pro and Asp residues makes Arg binding not only very specific, but also very efficient.

Studies on binding of HIV-1 p24gag peptide to HLA-Cw3+ cells.

Human major histocompatibility complex class I antigens, HLA-C, are expressed on the cell surface at approximately a tenfold lower level than HLA-A and -B. We hypothesized that the expression of HLA-C is limited by the quantity of high affinity peptides which bind to these molecules, thus allowing only a small fraction of HLA-C molecules to be transported and/or to remain stable on the cell surface. If this assumption is correct, then the addition of exogenous peptide should increase cell surface HLA-C expression. To verify the hypothesis, we pulsed lymphoblastoid cell line PAJ (HLA-Cw3+) with synthetic HIV-1 p24gag 145-152 peptide, known to be presented to T-lymphocytes by HLA-Cw3 molecule. PAJ (HLA-Cw3+) cells bound approximately two times more of the peptide than HAJ (HLA-Cw3-), and four times more than 500/C9 (HLA-Cw3-) cells. Accordingly, overnight pulsing of PAJ cells with the p24gag 145-152 peptide caused an increase in class I HLA expression detected on the cell surface by flow cytofluorimetric analysis with anti-HLA-B,C monoclonal antibodies but not by anti-HLA-A antibody. In contrast, HLA-Cw3- cells treated in the same manner did not show any increase of HLA class I expression. Our data suggest that low concentration of high affinity peptides within the cell may be one of the factors limiting cell surface expression of HLA-C molecules.

Octapeptide but not nonapeptide from HIV‐1 p24gag protein upregulates cell surface HLA‐C expression

Objectives  The HLA‐Cw3 molecule has been reported to present peptides derived from HIV‐1 p24gag protein to a cytotoxic T lymphocyte clone. We have shown previously that the synthetic octapeptide 145–152 derived from the p24gag sequence upregulated cell surface HLA‐C expression on HLA‐Cw*0303+ cells. Here, we examined the question of whether the nonapeptide 144–152 also exerts a similar effect.

The use of synthetic polypeptides in cosmetics

Cosmetic peptides are one of the active components of modern day cosmetic preparation. Peptides are short chains sequences of amino acids. Amino acids are the basic building blocks of proteins and many other different types of organic molecules. Many skincare products use peptides to treat wrinkles. There are three main groups of anti wrinkle peptides: signal peptides, neurotransmitter–affecting peptides and carrier peptides. This article reviews the most popular peptides used in cosmetics. According to them established own sequences of peptides which were synthesized and used in the subsequent studies.

In vitro effect of short-term exposure to two synthetic peptides, alone or in combination with clarithromycin or rifabutin, on Cryptosporidium parvum infectivity

The viability of Cryptosporidium parvum after exposure to peptide antibiotics was studied by two different methods, a cell culture system and a double fluorogenic staining. The peptides KFFKFFKFF and IKFLKFLKFL exerted high cytotoxic effects on sporozoites, as demonstrated by cell cultures (complete inhibition after 60 min at 100 microg/ml) and flow cytometry (30% after 20 min at 100 microg/ml), but did not affect consistently the oocysts. Clarithromycin and rifabutin demonstrated less activity against sporozoites but higher activity against oocysts (30% after 180 min at 10 microg/ml). The combination between peptides and azithromycin or rifabutin exerted the highest activities.

Cu(II) ion coordination to the pentadecapeptide model of the SPARC copper-binding site

SPARC (Secreted Protein, Acidic and Rich in Cysteine) is a matricellular glycoprotein with many biological functions: it mediates the interactions between cells and the extracellular matrix, playing a role in angiogenesis, tumorigenesis, caractogenesis and wound healing. Proteolysis of SPARC gives rise to a number of oligopeptides which can regulate angiogenesis in vivo and the biological activity of which has been related to their association with endogenous or exogenous copper ion. Human SPARC consists of three distinct modules. Module II is follistatin-like and contains two copper binding sites, the strongest of which—the cationic region 2 (amino acids 114–130)—contains the sequence Gly–His–Lys. In order to shed more light on the biological role of metal complexes formed by SPARC and its fragments, more information is needed on their stoichiometry, stability and structure in solution. In the present paper a potentiometric and spectroscopic investigation on Cu(II) complexes with the SPARC114–128 fragment, protected at both its amino and carboxylic ends, is reported. This peptide (Ac–TLEGTKKGHKLHLDY–NH2) constitutes a good model to the strong copper-binding site of the protein. The whole experimental data suggest that complex-formation is started by the two His residues, subsequently involving up to three amido nitrogens, as pH increases. The coordination of the two histydyl imidazoles is able to promote amide ionisation in the physiological pH range and this could be the key to the SPARC affinity for Cu(II) ion.