Teresa Hong

Retrocyclin: A primate peptide that protects cells from infection by T- and M-tropic strains of HIV-1

Human bone marrow expresses a pseudogene that encodes an antimicrobial peptide homologous to rhesus monkey circular minidefensins (θ-defensins). We prepared the putative ancestral human peptide by solid-phase synthesis and named it “retrocyclin.” Retrocyclin did not cause direct inactivation of HIV-1, and its modest antibacterial properties resembled those of its rhesus homologs. Nevertheless, retrocyclin had a remarkable ability to inhibit proviral DNA formation and to protect immortalized and primary human CD4+ lymphocytes from in vitro infection by both T-tropic and M-tropic strains of HIV-1. Confocal fluorescent microscopy studies performed with BODIPY-FL-labeled RC-101, a close analog of retrocyclin, showed that the peptide formed patch-like aggregates on the surface of CD4+ cells. These findings suggest that retrocyclin interferes with an early stage of HIV-1 infection and that retrocyclin-like agents might be useful topical agents to prevent sexually acquired HIV-1 infections.

θ Defensins Protect Cells from Infection by Herpes Simplex Virus by Inhibiting Viral Adhesion and Entry

ABSTRACT We tested the ability of 20 synthetic θ defensins to protect cells from infection by type 1 and type 2 herpes simplex viruses (HSV-1 and -2, respectively). The peptides included rhesus θ defensins (RTDs) 1 to 3, originally isolated from rhesus macaque leukocytes, and three peptides (retrocyclins 1 to 3) whose sequences were inferred from human θ-defensin (DEFT) pseudogenes. We also tested 14 retrocyclin analogues, including the retro, enantio, and retroenantio forms of retrocyclin 1. Retrocyclins 1 and 2 and RTD 3 protected cervical epithelial cells from infection by both HSV serotypes, but only retrocyclin 2 did so without causing cytotoxicity or requiring preincubation with the virus. Surface plasmon resonance studies revealed that retrocyclin 2 bound to immobilized HSV-2 glycoprotein B (gB2) with high affinity (Kd, 13.3 nM) and that it did not bind to enzymatically deglycosylated gB2. Temperature shift experiments indicated that retrocyclin 2 and human α defensins human neutrophil peptide 1 (HNP 1) to HNP 3 protected human cells from HSV-2 by different mechanisms. Retrocyclin 2 blocked viral attachment, and its addition during the binding or penetration phases of HSV-2 infection markedly diminished nuclear translocation of VP16 and expression of ICP4. In contrast, HNPs 1 to 3 had little effect on binding but reduced both VP16 transport and ICP4 expression if added during the postbinding (penetration) period. We recently reported that θ defensins are miniature lectins that bind gp120 of human immunodeficiency virus type 1 (HIV-1) with high affinity and inhibit the entry of R5 and X4 isolates of HIV-1. Given its small size (18 residues), minimal cytotoxicity, lack of activity against vaginal lactobacilli, and effectiveness against both HSV-2 and HIV-1, retrocyclin 2 provides an intriguing prototype for future topical microbicide development.

Retrocyclin, an Antiretroviral θ-Defensin, Is a Lectin

θ-Defensins are circular octadecapeptides that contain an internal tridisulfide ladder. Because retrocyclin-1, an ancestral hominid θ-defensin, can protect human cells in vitro from infection by T- and M-tropic strains of HIV-1, we used surface plasmon resonance techniques to study its binding to glycoproteins and glycolipids implicated in HIV-1 entry. Retrocyclin-1 bound with high affinity to gp120 (Kd, 35.4 nM), CD4 (Kd, 31 nM), and galactosylceramide (Kd, 24.1 nM). Neither a circular form of retrocyclin without its tridisulfide ladder nor its β-hairpin precursor with these disulfides intact bound gp120 or CD4 effectively. Retrocyclin also bound fetuin, an extensively glycosylated protein, with high affinity, but it did not bind nonglycosylated gp120 or BSA. However, retrocyclin did bind to a neoglycoprotein, BSA, with covalently attached sugar residues. Experiments with glycosidase-treated fetuin, gp120, and CD4 revealed that both O-linked and N-linked sugars were used as binding sites. In a panel of retrocyclin variants, binding to immobilized gp120 and CD4 were highly correlated to each other and to the peptide’s ability to protect human PBMCs from infection by HIV-1. Although small, cysteine-rich antimicrobial peptides with lectin-like properties exist in plants, θ-defensins are the first such molecules to be identified in vertebrates. Retrocyclin’s ability to recognize and bind carbohydrate-containing surface molecules is integrally related to its ability to protect cells from HIV-1 infection.

Activity of α- and θ-Defensins against Primary Isolates of HIV-1

θ-Defensins are lectin-like, cyclic octadecapeptides found in the leukocytes of nonhuman primates. They are also homologues of the more familiar α-defensins expressed by humans and certain other mammals. This study compares the ability of six θ-defensins (hominid retrocyclins 1–3 and rhesus θ-defensins 1–3) and four human α-defensins (human neutrophil peptides (HNPs) 1–4) to bind gp120 and CD4. In addition, we compared the ability of these θ-defensins and HNP-1 to protect J53-BL cells (an indicator cell line) from primary HIV-1 isolates that varied in subtype and coreceptor usage. The most potent θ-defensin, retrocyclin-2, bound with exceptionally high affinity to gp120 (KD, 9.4 nM) and CD4 (KD, 6.87 nM), and its effectiveness against subtype B isolates (IC50, 1.05 ± 0.28 μg/ml; 520 ± 139 nM) was approximately twice as great as that of HNP-1 on a molar basis. We also show, for the first time, that human α-defensins, HNPs 1–3, are lectins that bind with relatively high affinity to gp120 (KD range, 15.8–52.8 nM) and CD4 (KD range, 8.0–34.9 nM). Proteins found in human and FBS bound exogenous HNP-2 and retrocyclin-1, and competed with their ability to bind gp120. However, even the low concentrations of α-defensins found in normal human serum suffice to bind over half of the gp120 spikes on HIV-1 and a higher percentage of cell surface CD4 molecules. Although this report principally concerns the relationship between carbohydrate-binding and the antiviral properties of α- and θ-defensins, the lectin-like behavior of defensins may contribute to many other activities of these multifunctional peptides.

The θ-Defensin, Retrocyclin, Inhibits HIV-1 Entry

Retrocyclin is a circular antimicrobial 18-residue peptide encoded in the human genome by a θ-defensin pseudogene. In the human genome, the gene for retrocyclin is inactivated by an in-frame stop codon in its signal sequence but its mature coding sequence is intact. The peptide corresponding to the processed human retrocyclin, generated by solid phase peptide synthesis, inhibited replication of R5 and X4 strains of HIV-1 in human cells. Luciferase reporter virus and Vpr-BLaM entry assays were used to demonstrate that retrocyclin specifically blocked R5 and X4 HIV-1 replication at entry. Surface plasmon resonance demonstrated that retrocyclin bound to soluble CD4 and gp120, but gp120 cell-binding assays revealed that retrocyclin did not fully inhibit the binding of soluble CD4 to gp120. A fluorescent retrocyclin congener localized in cell-surface patches either alone or colocalized with CD4, CXCR4, and CCR5. In the aggregate, these results suggest that retrocyclin blocks an entry step in HIV-1 replication....

Solid-State NMR Investigation of the Depth of Insertion of Protegrin-1 in Lipid Bilayers Using Paramagnetic Mn2+

The depth of insertion of an antimicrobial peptide, protegrin-1 (PG-1), in lipid bilayers is investigated using solid-state NMR. Paramagnetic Mn(2+) ions bind to the surface of lipid bilayers and induce distance-dependent dipolar relaxation of nuclear spins. By comparing the signal dephasing of the peptide with that of the lipids, whose segmental depths of insertion are known, we determined the depths of several residues of PG-1 in 1,2 dilauryl-sn-glycero-3-phosphotidylcholine (DLPC) bilayers. We found that residues G2 at the N-terminus and F12 at the beta-turn of the peptide reside near the membrane surface, whereas L5 and V16 are embedded in the acyl chain region. The depths increase in the order of G2 < F12 < L5 < V16. These intensity-dephasing results are confirmed by direct measurement of the paramagnetically enhanced (13)C transverse relaxation rates. The relative depths indicate that PG-1 is tilted from the bilayer normal, which is consistent with independent solid-state NMR measurements of PG-1 orientation in the same lipids (Yamaguchi et al., 2001). They also indicate that PG-1 is fully immersed in the lipid bilayer. However, a quantitative mismatch between the bilayer thickness and PG-1 length suggests a local thinning of the DLPC bilayer by 8-10 A. The depth sensitivity of this Mn(2+) dephasing technique is tunable with the Mn(2+) concentration to focus on different regions of the lipid bilayer.

Circular minidefensins and posttranslational generation of molecular diversity.

We purified two new minidefensins (RTD‐2 and RTD‐3) from the bone marrow of rhesus monkeys. Both were circular octadecapeptides that contained three intramolecular disulfide bonds and were homologous to RTD‐1, a circular (θ) defensin previously described by Tang et al. (Science, 286, 498–502, 1999). However, whereas the 18 residues of RTD‐1 represent spliced nonapeptide fragments derived from two different demidefensin precursors, RTD‐2 and ‐3 comprise tandem nonapeptide repeats derived from only one of the RTD‐1 precursors. Thus, circular minidefensins are products of a novel posttranslational system that generates effector molecule diversity without commensurate genome expansion. A system wherein two demidefensin genes can produce three circular minidefensins might allow n such genes to produce (n/2)(n+1) peptides.

Calcitermin, a novel antimicrobial peptide isolated from human airway secretions

The human airways are protected from pathogenic colonization by a blanket of fluid impregnated with innate antimicrobial effector molecules. Among several previously uncharacterized components, we isolated a peptide that had activity primarily targeting Gram‐negative bacteria. We named the peptide ‘calcitermin’ since its amino acid sequence and mass were equivalent to the 15 C‐terminal residues of the S100 protein, calgranulin C. The antimicrobial activity of calcitermin was enhanced in acidic buffers (pH 5.4) and in the presence of micromolar concentrations of ZnCl2. Analysis revealed a putative zinc‐binding consensus sequence as well as an α‐helical conformation in structure‐promoting solvents.

Dicynthaurin: an antimicrobial peptide from hemocytes of the solitary tunicate, Halocynthia aurantium.

We isolated a novel antimicrobial peptide, dicynthaurin, from hemocytes of a tunicate, Halocynthia aurantium. The native peptide had a mass of approximately 6.2 kDa and was composed of two 30-residue monomers without sequence homology to any previously identified peptides (ILQKAVLDCLKAAGSSLSKAAITAIYNKIT). Most cynthaurin molecules were C-terminally amidated and were linked covalently by a single cystine disulfide bond. When performed in membrane-mimetic environments, circular dichroism studies of dicynthaurin revealed largely alpha-helical conformations. Dicynthaurins broad-spectrum activity encompassed Gram-positive (Micrococcus luteus, Staphylococcus aureus, Listeria monocytogenes) and Gram-negative bacteria (Escherichia coli, Pseudomonas aeruginosa), but not Candida albicans, a fungus. Although dicynthaurin was purified from a marine invertebrate, its antimicrobial activity was optimal at NaCl concentrations below 100 mM. This suggests that the antimicrobial actions of this molecule may take place intracellularly (e.g., within a phagosome) rather than extracellularly.

RL-37, an Alpha-Helical Antimicrobial Peptide of the Rhesus Monkey

ABSTRACT Rhesus monkey bone marrow expresses a cathelicidin whose C-terminal domain comprises a 37-residue alpha-helical peptide (RL-37) that resembles human LL-37. Like its human counterpart, RL-37 rapidly permeabilized the membranes of Escherichia coli ML-35p and lysed liposomes that simulated bacterial membranes. When tested in media whose NaCl concentrations approximated those of extracellular fluids, RL-37 was considerably more active than LL-37 against staphylococci. Whereas human LL-37 contains five acidic residues and has a net charge of +6, rhesus RL-37 has only two acidic residues and a net charge of +8. Speculating that the multiple acidic residues of human LL-37 reduced its efficacy against staphylococci, we made a peptide (LL-37 pentamide) in which each aspartic acid of LL-37 was replaced by an asparagine and each glutamic acid was replaced by a glutamine. LL-37 pentamides antistaphylococcal activity was substantially greater than that of LL-37. Thus, although the precursor of LL-37 is induced in human skin keratinocytes by injury or inflammation, its insufficiently cationic antimicrobial domain may contribute to the success of staphylococci in colonizing and infecting human skin.