Your search keyword '"Hauk, Pricila"' showing total 6 results

1. Calcium binding to leptospira outer membrane antigen LipL32 is not necessary for its interaction with plasma fibronectin, collagen type IV, and plasminogen.

Author

Hauk P, Barbosa AS, Ho PL, and Farah CS

Subjects

Amino Acid Substitution, Antigens, Bacterial chemistry, Antigens, Bacterial genetics, Bacterial Outer Membrane Proteins chemistry, Bacterial Outer Membrane Proteins genetics, Cations, Divalent, Collagen Type IV chemistry, Collagen Type IV genetics, Fibronectins chemistry, Fibronectins genetics, Humans, Leptospira chemistry, Leptospira genetics, Lipoproteins chemistry, Lipoproteins genetics, Mutation, Missense, Plasminogen chemistry, Plasminogen genetics, Protein Binding, Protein Stability, Antigens, Bacterial metabolism, Bacterial Outer Membrane Proteins metabolism, Calcium metabolism, Collagen Type IV metabolism, Fibronectins metabolism, Leptospira metabolism, Lipoproteins metabolism, Plasminogen metabolism

Abstract

LipL32 is the most abundant outer membrane protein from pathogenic Leptospira and has been shown to bind extracellular matrix (ECM) proteins as well as Ca(2+). Recent crystal structures have been obtained for the protein in the apo- and Ca(2+)-bound forms. In this work, we produced three LipL32 mutants (D163-168A, Q67A, and S247A) and evaluated their ability to interact with Ca(2+) and with ECM glycoproteins and human plasminogen. The D163-168A mutant modifies aspartate residues involved in Ca(2+) binding, whereas the other two modify residues in a cavity on the other side of the protein structure. Loss of calcium binding in the D163-D168A mutant was confirmed using intrinsic tryptophan fluorescence, circular dichroism, and thermal denaturation whereas the Q67A and S247A mutants presented the same Ca(2+) affinity as the wild-type protein. We then evaluated if Ca(2+) binding to LipL32 would be crucial for its interaction with collagen type IV and plasma proteins fibronectin and plasminogen. Surprisingly, the wild-type protein and all three mutants, including the D163-168A variant, bound to these ECM proteins with very similar affinities, both in the presence and absence of Ca(2+) ions. In conclusion, calcium binding to LipL32 may be important to stabilize the protein, but is not necessary to mediate interaction with host extracellular matrix proteins.

Published

2012

2. Structure and calcium-binding activity of LipL32, the major surface antigen of pathogenic Leptospira sp.

Author

Hauk P, Guzzo CR, Roman Ramos H, Ho PL, and Farah CS

Subjects

Antigens, Bacterial metabolism, Antigens, Surface chemistry, Antigens, Surface metabolism, Bacterial Outer Membrane Proteins metabolism, Binding Sites, Calcium metabolism, Calcium-Binding Proteins metabolism, Cations, Divalent, Extracellular Matrix Proteins metabolism, Protein Structure, Secondary, Protein Structure, Tertiary, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Antigens, Bacterial chemistry, Bacterial Outer Membrane Proteins chemistry, Calcium-Binding Proteins chemistry, Leptospira metabolism, Models, Molecular

Abstract

Leptospirosis, a spirochaetal zoonotic disease caused by Leptospira, has been recognized as an important emerging infectious disease. LipL32 is the major exposed outer membrane protein found exclusively in pathogenic leptospires, where it accounts for up to 75% of the total outer membrane proteins. It is highly immunogenic, and recent studies have implicated LipL32 as an extracellular matrix binding protein, interacting with collagens, fibronectin, and laminin. In order to better understand the biological role and the structural requirements for the function of this important lipoprotein, we have determined the 2.25-A-resolution structure of recombinant LipL32 protein corresponding to residues 21-272 of the wild-type protein (LipL32(21-272)). The LipL32(21-272) monomer is made of a jelly-roll fold core from which several peripheral secondary structures protrude. LipL32(21-272) is structurally similar to several other jelly-roll proteins, some of which bind calcium ions and extracellular matrix proteins. Indeed, spectroscopic data (circular dichroism, intrinsic tryptophan fluorescence, and extrinsic 1-amino-2-naphthol-4-sulfonic acid fluorescence) confirmed the calcium-binding properties of LipL32(21-272). Ca(2+) binding resulted in a significant increase in the thermal stability of the protein, and binding was specific for Ca(2+) as no structural or stability perturbations were observed for Mg(2+), Zn(2+), or Cu(2+). Careful examination of the crystallographic structure suggests the locations of putative regions that could mediate Ca(2+) binding as well as binding to other interacting host proteins, such as collagens, fibronectin, and laminin.

Published

2009

3. Leptospiral TlyC is an extracellular matrix-binding protein and does not present hemolysin activity.

Author

Carvalho E, Barbosa AS, Gómez RM, Cianciarullo AM, Hauk P, Abreu PA, Fiorini LC, Oliveira ML, Romero EC, Gonçales AP, Morais ZM, Vasconcellos SA, and Ho PL

Subjects

Hemolysis, Microscopy, Immunoelectron, Recombinant Proteins metabolism, Reverse Transcriptase Polymerase Chain Reaction, Bacterial Proteins metabolism, Hemolysin Proteins metabolism, Leptospira metabolism

Abstract

The role of TlyA, TlyB and TlyC proteins in the biology of Leptospira is still uncertain. Although these proteins have been considered as putative hemolysins, we demonstrate that leptospiral recombinant TlyB and TlyC do not possess hemolytic activity. However, further experiments showed that TlyC is a surface-exposed protein that seems to bind to laminin, collagen IV and fibronectin. The expression of both proteins was detected both in vitro and in vivo. Our findings suggest that TlyB and TlyC are not directly involved in hemolysis, and that TlyC may contribute to Leptospira binding to extracellular matrix (ECM) during host infection.

Published

2009

4. In LipL32, the major leptospiral lipoprotein, the C terminus is the primary immunogenic domain and mediates interaction with collagen IV and plasma fibronectin.

Author

Hauk P, Macedo F, Romero EC, Vasconcellos SA, de Morais ZM, Barbosa AS, and Ho PL

Subjects

Animals, Antibody Specificity, Bacterial Outer Membrane Proteins genetics, Cloning, Molecular, Collagen Type IV chemistry, Female, Fibronectins chemistry, Gelatin pharmacology, Heparin pharmacology, Humans, Immune Sera immunology, Immunodominant Epitopes biosynthesis, Immunodominant Epitopes genetics, Leptospira genetics, Leptospira metabolism, Leptospirosis blood, Leptospirosis immunology, Lipoproteins genetics, Mice, Mice, Inbred BALB C, Protein Binding drug effects, Protein Binding physiology, Bacterial Outer Membrane Proteins immunology, Bacterial Outer Membrane Proteins metabolism, Collagen Type IV metabolism, Fibronectins metabolism, Immunodominant Epitopes immunology, Leptospira immunology, Lipoproteins immunology, Lipoproteins metabolism

Abstract

LipL32 is the major leptospiral outer membrane lipoprotein expressed during infection and is the immunodominant antigen recognized during the humoral immune response to leptospirosis in humans. In this study, we investigated novel aspects of LipL32. In order to define the immunodominant domains(s) of the molecule, subfragments corresponding to the N-terminal, intermediate, and C-terminal portions of the LipL32 gene were cloned and the proteins were expressed and purified by metal affinity chromatography. Our immunoblot results indicate that the C-terminal and intermediate domains of LipL32 are recognized by sera of patients with laboratory-confirmed leptospirosis. An immunoglobulin M response was detected exclusively against the LipL32 C-terminal fragment in both the acute and convalescent phases of illness. We also evaluated the capacity of LipL32 to interact with extracellular matrix (ECM) components. Dose-dependent, specific binding of LipL32 to collagen type IV and plasma fibronectin was observed, and the binding capacity could be attributed to the C-terminal portion of this molecule. Both heparin and gelatin could inhibit LipL32 binding to fibronectin in a concentration-dependent manner, indicating that the 30-kDa heparin-binding and 45-kDa gelatin-binding domains of fibronectin are involved in this interaction. Taken together, our results provide evidence that the LipL32 C terminus is recognized early in the course of infection and is the domain responsible for mediating interaction with ECM proteins.

Published

2008

5. Increased Immunogenicity to LipL32 of Leptospira interrogans when Expressed as a Fusion Protein with the Cholera Toxin B Subunit.

Author

Habarta, Alejandra, Abreu, Patricia, Olivera, Noelia, Hauk, Pricila, Cédola, Maia T., Ferrer, María F., Ho, Paulo L., and Gomez, Ricardo M.

Subjects

LEPTOSPIROSIS, LEPTOSPIRA, PATHOGENIC bacteria, BACTERIAL vaccines, WESTERN immunoblotting, ANTIGENS, IMMUNE serums, PREVENTION

Abstract

Leptospirosis is one of the most widespread zoonosis in the world. The development of a recombinant leptospira vaccine remains a challenge. In this study, we cloned the Leptospira interrogans open reading frame (ORF) coding the external membrane protein LipL32, an immunodominant antigen found in all pathogenic leptospira, downstream of the highly immunogenic cholera toxin B subunit (CTB) ORF. Expression and assembly of the CTB-LipL32 fusion protein into oligomeric structures of pentameric size were observed in soluble fractions by Western blot analysis. The CTB-LipL32 protein demonstrated strong affinity for monosialotetrahexosylgaglioside (GM1-ganglioside) in an enzyme-linked immunosorbent assay (ELISA), suggesting that the antigenic sites for binding and proper folding of the pentameric CTB structure were conserved. Furthermore, antisera against LipL32 also recognized the CTB-LipL32 fusion protein, suggesting that LipL32 also conserved its antigenic sites, a fact confirmed by an ELISA assay showing soluble CTB-LipL32 recognition by sera from convalescent patients. In addition, soluble CTB-LipL32 generated higher specific titers in mice immunized without external adjuvant than co-administration of CTB with LipL32. The data presented here provide support for CTB-LipL32 as a promising antigen for use in the control and study of leptospirosis. [ABSTRACT FROM AUTHOR]

Published

2011

6. Crystallization and preliminary X-ray analysis of LipL32 from Leptospira interrogans serovar Copenhageni.

Author

Hauk, Pricila, Guzzo, Cristiane R., Ho, Paulo L., and Farah, Chuck S.

Subjects

*LEPTOSPIRA interrogans, *SELENOMETHIONINE, *CYSTEINE, *SYNCHROTRONS, *CRYSTALLIZATION

Abstract

LipL32 is a major surface protein that is expressed during infection by pathogenic Leptospira. Here, the crystallization of recombinant LipL3221-272, which corresponds to the mature LipL32 protein minus its N-terminal lipid-anchored cysteine residue, is described. Selenomethionine-labelled LipL3221-272 crystals diffracted to 2.25 Å resolution at a synchrotron source. The space group was P3121 or P3221 and the unit-cell parameters were a = b = 126.7, c = 96.0 Å. [ABSTRACT FROM AUTHOR]

Published

2009