The plasma membrane glycoprotein receptor CD163 is a member of the scavenger receptor cystein-rich (SRCR) superfamily class B that is highly expressed on resident tissue macrophages in vivo. Previously, the molecule has been shown to act as a receptor for hemoglobinhaptoglobin complexes and to mediate cell-cell interactions between macrophages and developing erythroblasts in erythroblastic islands. Here, we provide evidence for a potential role for CD163 in host defense. In particular, we demonstrate that CD163 can function as a macrophage receptor for bacteria. CD163 was shown to bind both Gram-positive and -negative bacteria, and a previously identified cell-binding motif in the second scavenger domain of CD163 was sufficient to mediate this binding. Expression of CD163 in monocytic cells promoted bacteria-induced proinflammatory cytokine production. Finally, newly generated antagonistic antibodies against CD163 were able to potently inhibit cytokine production elicited by bacteria in freshly isolated human monocytes. These findings identify CD163 as a macrophage receptor for bacteria and suggest that, during bacterial infection, CD163 on resident tissue macrophages acts as an innate immune sensor and inducer of local inflammation. (Blood. 2009;113:887-892)
Wounds in the oral cavity heal much faster than skin lesions. Among other factors, saliva is generally assumed to be of relevance to this feature. Rodent saliva contains large amounts of growth factors such as epidermal growth factor (EGF) and nerve growth factor (NGF). In humans, however, the identity of the involved compounds has remained elusive, especially since EGF and NGF concentrations are approximately 100,000 times lower than those in rodent saliva. Using an in vitro model for wound closure, we examined the properties of human saliva and the fractions that were obtained from saliva by high-performance liquid chromotography (HPLC) separation. We identified histatin 1 (Hst1) and histatin 2 (Hst2) as major wound-closing factors in human saliva. In contrast, the d-enantiomer of Hst2 did not induce wound closure, indicating stereospecific activation. Furthermore, histatins were actively internalized by epithelial cells and specifically used the extracellular signal-regulated kinases 1/2 (ERK1/2) pathway, thereby enhancing epithelial migration. This study demonstrates that members of the histatin family, which up to now were implicated in the antifungal weaponry of saliva, exert a novel function that likely is relevant for oral wound healing.
Modification of material surfaces aimed at bestowing them with antimicrobial properties is a promising approach in the development of new biomaterials. Antimicrobial peptides (AMPs) are an attractive alternative to conventional antibiotics because of lack of toxicity, inherently high selectivity, and absence of immune response. As the antimicrobial mode of action of the AMP cathelin LL37 is formation of pores and disruption of microbial membrane, the purpose of the present study was to develop and test a method of covalent immobilization of LL37 on titanium surface. The application of a flexible hydrophilic poly(ethylene glycol) spacer and selective N-terminal conjugation of LL37 resulted in a surface peptide layer which was capable of killing bacteria on contact.
Salivary agglutinin is encoded by DMBT1 and identical to gp-340, a member of the scavenger receptor cysteine-rich (SRCR) superfamily. Salivary agglutinin/ DMBT1 is known for its Streptococcus mutans agglutinating properties. This 300 -400 kDa glycoprotein is composed of conserved peptide motifs: 14 SRCR domains that are separated by SRCR-interspersed domains (SIDs), 2 CUB (C1r/C1s Uegf Bmp1) domains, and a zona pellucida domain. We have searched for the peptide domains of agglutinin/DMBT1 responsible for bacteria binding. Digestion with endoproteinase Lys-C resulted in a protein fragment containing exclusively SRCR and SID domains that binds to S. mutans. To define more closely the S. mutans-binding domain, consensus-based peptides of the SRCR domains and SIDs were designed and synthesized. Only one of the SRCR peptides, designated SRCRP2, and none of the SID peptides bound to S. mutans. Strikingly, this peptide was also able to induce agglutination of S. mutans and a number of other bacteria. The repeated presence of this peptide in the native molecule endows agglutinin/DMBT1 with a general bacterial binding feature with a multivalent character. Moreover, our studies demonstrate for the first time that the polymorphic SRCR domains of salivary agglutinin/DMBT1 mediate ligand interactions.
The scavenger receptor cysteine-rich (SRCR) proteins form an archaic group of metazoan proteins characterized by the presence of SRCR domains. These proteins are classified in group A and B based on the number of conserved cysteine residues in their SRCR domains, i.e. six for group A and eight for group B. The protein DMBT1 (deleted in malignant brain tumors 1), which is identical to salivary agglutinin and lung gp-340, belongs to the group B SRCR proteins and is considered to be involved in tumor suppression and host defense by pathogen binding. In a previous study we used nonoverlapping synthetic peptides covering the SRCR consensus sequence to identify a 16-amino acid bacteriabinding protein loop (peptide SRCRP2; QGRVEVLYRG-SWGTVC) within the SRCR domains. In this study, using overlapping peptides, we pinpointed the minimal bacteria-binding site on SRCRP2, and thus DMBT1, to an 11-amino acid motif (DMBT1 pathogen-binding site 1 or DMBT1pbs1; GRVEVLYRGSW). An alanine substitution scan revealed that VEVL and Trp are critical residues in this motif. Bacteria binding by DMBT1pbs1 was different from the bacteria binding by the macrophage receptor MARCO in which an RXR motif was critical. In addition, the homologous consensus sequences of a number of SRCR proteins were synthesized and tested for bacteria binding. Only consensus sequences of DMBT1 orthologues bound bacteria by this motif.The scavenger receptor cysteine-rich (SRCR) 1 proteins form an archaic group of metazoan proteins (1-5). This group of glycoproteins comprises cell surface molecules as well as secreted proteins that are characterized by the presence of one or more SRCR domains. SRCR domains consist of ϳ110 amino acids and are divided into groups A and B based on the number of conserved cysteine residues, namely six for group A and eight for group B.The best studied members of the group A SRCR proteins are the macrophage scavenger receptor (MSR1), the Mac 2-binding protein (Mac-2bp), and MARCO. Both MSR1 and MARCO are known to interact with bacteria (6, 7). In contrast to MARCO (8), the SRCR domain of MSR1 does not seem to be involved in bacteria binding (9, 10). Bacteria binding by MARCO involves an RXR motif within the SRCR domain, indicating that ionic interactions play a crucial role in the interaction with its negatively charged ligands (6).Group B SRCR proteins are generally involved in the regulation of cellular immune responses. In vertebrates, the group B SRCR proteins can be divided, on the basis of their structure and sequence homology, into three subgroups (11). The first subgroup includes CD5 (12), CD6 (13), and SP␣ (14). CD5 and CD6 are composed of an extracellular region of three SRCR domains, a transmembrane region, and a cytoplasmic region. SP␣ lacks the latter two regions but contains three SRCR domains that are highly homologous to those of CD5 and CD6. These three proteins are mainly expressed by T-cells and Bcells (12, 13). The second subgroup of SRCR group B molecules is the workshop cluster 1 (WC1) family, which includes WC1, ...
Wounds in the mouth heal faster and with less scarification and inflammation than those in the skin. Saliva is thought to be essential for the superior oral wound healing, but the involved mechanism is still unclear. We have previously discovered that a human-specific peptide, histatin, might be implicated in the wound-healing properties of saliva. Here we report that histatin enhances reepithelialization in a human full-skin wound model closely resembling normal skin. The peptide does not stimulate proliferation but induces cell spreading and migration, two key initiating steps in reepithelialization. Activation of cells by histatin requires a G-protein-coupled receptor that activates the ERK1/2 pathway. Using a stepwise-truncation method, we determined the minimal domain (SHREFPFYGDYGS) of the 38-mer-parent peptide that is required for activity. Strikingly, N- to C-terminal cyclization of histatin-1 potentiates the molar activity approximately 1000-fold, indicating that the recognition of histatin by its cognate receptor requires a specific spatial conformation of the peptide. Our results emphasize the importance of histatin in human saliva for tissue protection and recovery and establish the experimental basis for the development of synthetic histatins as novel skin wound-healing agents.
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