Correction: Two Arginine Residues of Streptococcus gordonii Sialic Acid-Binding Adhesin Hsa Are Essential for Interaction to Host Cell Receptors

Infection by the influenza virus depends firstly on cell adhesion via the sialic-acid-binding viral surface protein, haemagglutinin, and secondly on the successful escape of progeny viruses from the host cell to enable the virus to spread to other cells. To achieve the latter, influenza uses another glycoprotein, the enzyme neuraminidase (NA), to cleave the sialic acid receptors from the surface of the original host cell. This paper traces the development of anti-influenza drugs, from the initial suggestion by MacFarlane Burnet in 1948 that an effective ‘competitive poison’ of the virus' NA might be useful in controlling infection by the virus, through to the determination of the structure of NA by X-ray crystallography and the realization of Burnet's idea with the design of NA inhibitors. A focus is the contribution of the late William Graeme Laver, FRS, to this research.

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The Role of Sialic Acids in the Establishment of Infections by Pathogens, With Special Focus on Leishmania

Frontiers in Cellular and Infection Microbiology ◽

10.3389/fcimb.2021.671913 ◽

2021 ◽

Vol 11 ◽

Author(s):

Tainá Cavalcante ◽

Mariana Medina Medeiros ◽

Simon Ngao Mule ◽

Giuseppe Palmisano ◽

Beatriz Simonsen Stolf

Keyword(s):

Sialic Acid ◽

Cell Surface ◽

Host Cell ◽

Functional Diversity ◽

Sialic Acids ◽

Cellular Communication ◽

Special Focus ◽

Functional Studies ◽

Sialic Acid Binding

Carbohydrates or glycans are ubiquitous components of the cell surface which play crucial biological and structural roles. Sialic acids (Sias) are nine-carbon atoms sugars usually present as terminal residues of glycoproteins and glycolipids on the cell surface or secreted. They have important roles in cellular communication and also in infection and survival of pathogens. More than 20 pathogens can synthesize or capture Sias from their hosts and incorporate them into their own glycoconjugates and derivatives. Sialylation of pathogens’ glycoconjugates may be crucial for survival inside the host for numerous reasons. The role of Sias in protozoa such as Trypanosoma and Leishmania was demonstrated in previous studies. This review highlights the importance of Sias in several pathogenic infections, focusing on Leishmania. We describe in detail the contributions of Sias, Siglecs (sialic acid binding Ig-like lectins) and Neuraminidase 1 (NEU 1) in the course of Leishmania infection. A detailed view on the structural and functional diversity of Leishmania-related Sias and host-cell receptors will be provided, as well as the results of functional studies performed with different Leishmania species.

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A Sialic Acid-Binding Protein SABP1 of Toxoplasma gondii Mediates Host Cell Attachment and Invasion

The Journal of Infectious Diseases ◽

10.1093/infdis/jiaa072 ◽

2020 ◽

Vol 222 (1) ◽

pp. 126-135 ◽

Cited By ~ 1

Author(s):

Mengen Xing ◽

Na Yang ◽

Ning Jiang ◽

Dawei Wang ◽

Xiaoyu Sang ◽

...

Keyword(s):

Sialic Acid ◽

Toxoplasma Gondii ◽

Host Cell ◽

Cell Attachment ◽

Binding Protein ◽

Critical Role ◽

Uncharacterized Protein ◽

Neuraminidase Treatment ◽

Acid Binding Protein ◽

Sialic Acid Binding

Abstract Many obligate intracellular apicomplexan parasites have adapted a distinct invasion mechanism involving a close interaction between the parasite ligands and the sialic acid (SA) receptor. We found that sialic acid binding protein-1 (SABP1), localized on the outer membrane of the zoonotic parasite Toxoplasma gondii, readily binds to sialic acid on the host cell surface. The binding was sensitive to neuraminidase treatment. Cells preincubated with recombinant SABP1 protein resisted parasite invasion in vitro. The parasite lost its invasion capacity and animal infectivity after the SABP1 gene was deleted, whereas complementation of the SABP1 gene restored the virulence of the knockout strain. These data establish the critical role of SABP1 in the invasion process of T. gondii. The previously uncharacterized protein, SABP1, facilitated T. gondii attachment and invasion via sialic acid receptors.

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Binding of the Streptococcus gordonii DL1 Surface Protein Hsa to the Host Cell Membrane Glycoproteins CD11b, CD43, and CD50

Infection and Immunity ◽

10.1128/iai.00238-08 ◽

2008 ◽

Vol 76 (10) ◽

pp. 4686-4691 ◽

Cited By ~ 22

Author(s):

Yumiko Urano-Tashiro ◽

Ayako Yajima ◽

Eizo Takashima ◽

Yukihiro Takahashi ◽

Kiyoshi Konishi

Keyword(s):

Sialic Acid ◽

Infective Endocarditis ◽

Surface Protein ◽

Oral Streptococci ◽

Streptococcus Gordonii ◽

Membrane Glycoproteins ◽

Host Cell Membrane ◽

Neuraminidase Treatment ◽

Sialic Acid Binding

ABSTRACTInfective endocarditis is frequently attributed to oral streptococci. The mechanisms of pathogenesis, however, are not well understood, although interaction between streptococci and phagocytes are thought to be very important. A highly expressed surface component ofStreptococcus gordonii, Hsa, which has sialic acid-binding activity, contributes to infective endocarditis in vivo. In the present study, we found thatS. gordoniiDL1 binds to HL-60 cells differentiated into monocytes, granulocytes, and macrophages. Using a glutathioneS-transferase (GST) fusion to the NR2 domain, which is the sialic acid-binding region of Hsa, we confirmed that the Hsa NR2 domain also binds to differentiated HL-60 cells. To identify which sialoglycoproteins on the surface of differentiated HL-60 cells are receptors for Hsa, intrinsic membrane proteins were assessed by bacterial overlay and far-Western blotting.S. gordoniiDL1 adhered to 100- to 150-kDa proteins, a reaction that was abolished by neuraminidase treatment. These sialoglycoproteins were identified as CD11b, CD43, and CD50 by GST pull-down assay and immunoprecipitation with each specific monoclonal antibody. These data suggest thatS. gordoniiDL1 Hsa specifically binds to three glycoproteins as receptors and that this interaction may be the initial bacterial binding step in infective endocarditis by oral streptococci.

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Members of a Novel Protein Family Containing Microneme Adhesive Repeat Domains Act as Sialic Acid-binding Lectins during Host Cell Invasion by Apicomplexan Parasites

Journal of Biological Chemistry ◽

10.1074/jbc.m109.060988 ◽

2009 ◽

Vol 285 (3) ◽

pp. 2064-2076 ◽

Cited By ~ 65

Author(s):

Nikolas Friedrich ◽

Joana M. Santos ◽

Yan Liu ◽

Angelina S. Palma ◽

Ester Leon ◽

...

Keyword(s):

Sialic Acid ◽

Host Cell ◽

Cell Invasion ◽

Protein Family ◽

Host Cell Invasion ◽

Apicomplexan Parasites ◽

Sialic Acid Binding ◽

Novel Protein

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Streptococcus gordonii promotes rapid differentiation of monocytes into dendritic cells through interaction with the sialic acid-binding adhesin

Odontology ◽

10.1007/s10266-011-0044-z ◽

2011 ◽

Vol 100 (2) ◽

pp. 144-148 ◽

Cited By ~ 5

Author(s):

Yumiko Urano-Tashiro ◽

Ayako Yajima ◽

Yukihiro Takahashi ◽

Kiyoshi Konishi

Keyword(s):

Dendritic Cells ◽

Sialic Acid ◽

Streptococcus Gordonii ◽

Sialic Acid Binding

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Chemical-modification studies of a unique sialic acid-binding lectin from the snail Achatina fulica. Involvement of tryptophan and histidine residues in biological activity

Biochemical Journal ◽

10.1042/bj2540195 ◽

1988 ◽

Vol 254 (1) ◽

pp. 195-202 ◽

Cited By ~ 24

Author(s):

S Basu ◽

C Mandal ◽

A K Allen

Keyword(s):

Biological Activity ◽

Sialic Acid ◽

Amino Acid ◽

Fluorescence Emission ◽

Amino Acid Residues ◽

Achatina Fulica ◽

Histidine Residues ◽

Sialic Acid Binding ◽

Arginine Residues ◽

Binding Lectin

A unique sialic acid-binding lectin, achatininH (ATNH) was purified in single step from the haemolymph of the snail Achatina fulica by affinity chromatography on sheep submaxillary-gland mucin coupled to Sepharose 4B. The homogeneity was checked by alkaline gel electrophoresis, immunodiffusion and immunoelectrophoresis. Amino acid analysis showed that the lectin has a fairly high content of acidic amino acid residues (22% of the total). About 1.3% of the residues are half-cystine. The glycoprotein contains 21% carbohydrate. The unusually high content of xylose (6%) and fucose (2.7%) in this snail lectin is quite interesting. The protein was subjected to various chemical modifications in order to detect the amino acid residues and carbohydrate residues present in its binding sites. Modification of tyrosine and arginine residues did not affect the binding activity of ATNH; however, modification of tryptophan and histidine residues led to a complete loss of its biological activity. A marked decrease in the fluorescence emission was found as the tryptophan residues of ATNH were modified. The c.d. data showed the presence of an identical type of conformation in the native and modified agglutinin. The modification of lysine and carboxy residues partially diminished the biological activity. The activity was completely lost after a beta-elimination reaction, indicating that the sugars are O-glycosidically linked to the glycoprotein's protein moiety. This result confirms that the carbohydrate moiety also plays an important role in the agglutination property of this lectin.

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Functional Analysis of the Streptococcus gordonii DL1 Sialic Acid-Binding Adhesin and Its Essential Role in Bacterial Binding to Platelets

Infection and Immunity ◽

10.1128/iai.72.7.3876-3882.2004 ◽

2004 ◽

Vol 72 (7) ◽

pp. 3876-3882 ◽

Cited By ~ 68

Author(s):

Yukihiro Takahashi ◽

Ayako Yajima ◽

John O. Cisar ◽

Kiyoshi Konishi

Keyword(s):

Sialic Acid ◽

Essential Role ◽

Signal Sequence ◽

Complete Removal ◽

Human Platelets ◽

Microbial Colonization ◽

Streptococcus Gordonii ◽

Rich Region ◽

Neuraminidase Treatment ◽

Sialic Acid Binding

ABSTRACT Bacterial recognition of host sialic acid-containing receptors plays an important role in microbial colonization of the human oral cavity. The sialic acid-binding adhesin of Streptococcus gordonii DL1 was previously associated with the hsa gene encoding a 203-kDa protein. The predicted protein sequence consists of an N-terminal nonrepetitive region (NR1), including a signal sequence, a relatively short serine-rich region (SR1), a second nonrepetitive region (NR2), a long serine-rich region (SR2) containing 113 dodecapeptide repeats, and a C-terminal cell wall anchoring domain. In the present study, the contributions of SR1, NR2, and SR2 to Hsa-mediated adhesion were assessed by genetic complementation. Adhesion of an hsa chromosomal deletion mutant to sialic acid-containing receptors was restored by plasmids containing hsa constructs encoding Hsa that lacked either the N- or C-terminal portion of SR2. In contrast, hsa constructs that lacked the coding sequences for SR1, NR2, or the entire SR2 region failed to restore adhesion. Surface expression of recombinant Hsa was not affected by removal of SR1, NR2, or a portion of SR2 but was greatly reduced by complete removal of SR2. Wheat germ agglutinin, a probe for Hsa-specific glycosylation, reacted with recombinant Hsa lacking SR1, NR2, or SR2 but not with recombinant Hsa lacking both SR1 and SR2. Significantly, the aggregation of human platelets by S. gordonii DL1, an interaction implicated in the pathogenesis of infective endocarditis, required the expression of hsa. Moreover, neuraminidase treatment of the platelets eliminated this interaction, further supporting the hypothesis that Hsa plays an essential role in the bacterium-platelet interaction.

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Contribution of Sialic Acid-Binding Adhesin to Pathogenesis of Experimental Endocarditis Caused by Streptococcus gordonii DL1

Infection and Immunity ◽

10.1128/iai.74.1.740-743.2006 ◽

2006 ◽

Vol 74 (1) ◽

pp. 740-743 ◽

Cited By ~ 59

Author(s):

Yukihiro Takahashi ◽

Eizo Takashima ◽

Kisaki Shimazu ◽

Hisao Yagishita ◽

Takaaki Aoba ◽

...

Keyword(s):

Sialic Acid ◽

Aortic Valve ◽

Infection Rate ◽

Inflammatory Reaction ◽

Heart Valves ◽

Streptococcus Gordonii ◽

Gene Encoding ◽

Insertional Mutation ◽

Sialic Acid Binding

ABSTRACT An insertional mutation in hsa, the gene encoding the sialic acid-binding adhesin of Streptococcus gordonii DL1, resulted in a significant reduction of the infection rate of the organism and an inflammatory reaction in the rat aortic valve with experimental endocarditis, suggesting that the adhesin contributes to the infectivity of the organism for heart valves.

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