123 research outputs found

    Heme binding by the N-terminal fragment 1-44 of human growth hormone

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    Fragment 1-44 of human growth hormone (hGH), prepared in vitro by limited proteolysis of the hormone with pepsin at low pH, encompasses in full the N-terminal helix of this four-helix bundle protein [Spolaore, B., Polverino de Laureto, P., Zambonin, M., and Fontana, A. (2004) Biochemistry 40, 9460-9468]. Here, we report the new and interesting observation that fragment 1-44 can bind heme. The binding property is specific for the N-terminal helix of hGH, since heme binding does not occur with fragment 45-191 or the entire protein. The spectral characteristics of Fe-protoporphyrin IX are those of a low-spin, hexacoordinated iron ligated by two imidazole rings of His residues or His and Met residues. Far-UV circular dichroism (CD) measurements revealed that fragment 1-44 acquires a helical secondary structure upon heme binding. Heme appears to be bound to the fragment in a stereospecific way, since an induced dichroic signal is observed in the Soret region of the CD spectrum. The heme-fragment complex occurs in a 1:1 molar ratio, as determined by spectrophotometric titration, as well as by electrospray-ionization mass spectrometric analysis of the complex. The fragment alone is much more susceptible to tryptic digestion than the heme complex, implying a more folded and rigid structure of this last species. It is proposed that the molecular features of fragment 1-44 determining its heme-binding property reside in the amphipathic character of the helix adopted by the fragment, as well as in the presence in its polypeptide chain of His18, His21, and Met14. These residues can act as specific ligands for the heme-iron, as observed with cytochromes

    Site-specific derivatization of human interferon β-1a at lysine residues using microbial transglutaminase

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    Microbial transglutaminase (TGase) has been successfully used to produce site-specific protein conjugates derivatized at the level of glutamine (Gln) or lysine (Lys) residues with diverse applications. Here, we study the drug human interferon beta-1a (IFN) as a substrate of TGase. The derivatization reaction was performed using carbobenzoxy-l-glutaminyl-glycine to modify Lys residues and dansylcadaverine for Gln residues. The 166 amino acids polypeptide chain of IFN beta-1a contains 11 Lys and 11 Gln residues potential sites of TGase derivatization. By means of mass spectrometry analyses, we demonstrate the highly selective derivatization of this protein by TGase at the level of Lys115 and as secondary site at the level of Lys33, while no reactive Gln residue was detected. Limited proteolysis experiments were performed on IFN to determine flexible regions of the protein under physiological conditions. Interestingly, primary and secondary sites of limited proteolysis and of TGase derivatization occur at the same regions of the polypeptide chain, indicating that the extraordinary selectivity of the TGase-mediated reaction is dictated by the conformational features of the protein substrate. We envisage that the TGase-mediated derivatization of IFN can be used to produce interesting derivatives of this important therapeutic protein

    The biological activities of protein/oleic acid complexes reside in the fatty acid.

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    A complex formed by human α-lactalbumin (α-LA) and oleic acid (OA), named HAMLET, has been shown to have an apoptotic activity leading to the selective death of tumor cells. In numerous publications it has been reported that in the complex α-LA is monomeric and adopts a partly folded or “molten globule” state, leading to the idea that partly folded proteins can have “beneficial effects”. The protein/OA molar ratio initially has been reported to be 1:1, while recent data have indicated that the OA-complex is given by an oligomeric protein capable of binding numerous OA molecules per protein monomer. Proteolytic fragments of α-LA, as well as other proteins unrelated to α-LA, can form OA-complexes with biological activities similar to those of HAMLET, thus indicating that a generic protein can form a cytotoxic complex under suitable experimental conditions. Moreover, even the selective tumoricidal activity of HAMLET-like complexes has been questioned. There is recent evidence that the biological activity of long chain unsaturated fatty acids, including OA, can be ascribed to their effect of perturbing the structure of biological membranes and consequently the function of membrane-bound proteins. In general, it has been observed that the cytotoxic effects exerted by HAMLET-like complexes are similar to those reported for OA alone. Overall, these findings can be interpreted by considering that the protein moiety does not have a toxic effect on its own, but merely acts as a solubilising agent for the inherently toxic fatty acid

    Novel rhamnose-binding lectins from the colonial ascidian Botryllus schlosseri

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    In a full-length cDNA library from the compound ascidian Botryllus schlosseri, we identified, by BLAST search against UniProt database, five transcripts, each with complete coding sequence, homologous to known rhamnose-binding lectins (RBLs). Comparisons of the predicted amino acid sequences suggest that they represent different isoforms of a novel RBL, called BsRBL-1–5. Four of these isolectins were found in Botryllus homogenate after purification by affinity chromatography on acid-treated Sepharose, analysis by reverse-phase HPLC and mass spectrometry. Analysis of both molecular masses and tryptic digests of BsRBLs indicated that the N-terminal sequence of the purified proteins starts from residue 22 of the putative amino acid sequence, and residues 1–21 represent a signal peptide. Analysis by mass spectrometry of V8-protease digests confirmed the presence and alignments of the eight cysteines involved in the disulphide bridges that characterise RBLs. Functional studies proved the enhancing effect on phagocytosis of the affinity-purified material. Results are discussed in terms of phylogenetic relationships of BsRBLs with orthologous molecules from protostomes and deuterostomes

    Structural polymorphism within a regulatory element of the human KRAS promoter: formation of G4-DNA recognized by nuclear proteins

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    The human KRAS proto-oncogene contains a critical nuclease hypersensitive element (NHE) upstream of the major transcription initiation site. In this article, we demonstrate by primer-extension experiments, PAGE, chemical footprinting, CD, UV and FRET experiments that the G-rich strand of NHE (32R) folds into intra-molecular G-quadruplex structures. Fluorescence data show that 32R in 100 mM KCl melts with a biphasic profile, showing the formation of two distinct G-quadruplexes with T(m) of approximately 55 degrees C (Q(1)) and approximately 72 degrees C (Q(2)). DMS-footprinting and CD suggest that Q(1) can be a parallel and Q(2) a mixed parallel/antiparallel G-quadruplex. When dsNHE (32R hybridized to its complementary) is incubated with a nuclear extract from Panc-1 cells, three DNA-protein complexes are observed by EMSA. The complex of slower mobility is competed by quadruplex 32R, but not by mutant oligonucleotides, which cannot form a quadruplex structure. Using paramagnetic beads coupled with 32R, we pulled down from the Panc-1 extract proteins with affinity for quadruplex 32R. One of these is the heterogeneous nuclear ribonucleoprotein A1, which was previously reported to unfold quadruplex DNA. Our study suggests a role of quadruplex DNA in KRAS transcription and provides the basis for the rationale design of molecular strategies to inhibit the expression of KRAS

    Limited proteolysis of human growth hormone at low pH: isolation, characterization, and complementation of the two biologically relevant fragments 1-44 and 45-191

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    The limited proteolysis approach was used to analyze the conformational features of human growth hormone (hGH) under acidic solvent conditions (A-state). Pepsin was used as the proteolytic probe because of its poor substrate specificity and its activity at low pH. Limited proteolysis of hGH in its A-state results in a selective cleavage of the Phe44-Leu45 peptide bond, leading to the production of fragments 1-44 and 45-191. The two fragments were isolated in homogeneous form for studying their conformational properties by means of spectroscopic methods. Fragment 1-44 was shown to retain little secondary and tertiary structure at neutral pH, while fragment 45-191 independently folds into a highly helical secondary structure. In particular, we have shown that the two peptic fragments are able to associate into a stable and native-like hGH complex 1-44/45-191. Our proteolysis data indicate that in acid solution hGH adopts a partly folded state characterized by a local unfolding of the first minihelix (residues 38-47) encompassing the Phe44-Leu45 peptide bond. Of interest, hGH has both insulin-like and diabetogenic effects. Two fragments of hGH occur in vivo and exert these two opposite activities, namely, fragment 1-43 showing an insulin-potentiating effect and fragment 44-191 showing a diabetogenic activity. The results of this study suggest that the conformational changes of hGH induced by an acidic pH promote the generation of the two physiologically relevant fragments by proteolytic processing of the hormone. Although pepsin cannot be the enzyme responsible for the in vivo processing of the hormone, we propose that limited proteolysis of hGH at low pH is physiologically relevant, since the hormone is exposed to an acidic environment in the cell. This study reports for the first time the analysis of the conformational features of the two individual functional domains of hGH and of their complex
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