Lajos Baranyi

The antisense homology box: A new motif within proteins that encodes biologically active peptides

Amphiphilic peptides approximately fifteen amino acids in length and their corresponding antisense peptides exist within protein molecules. These regions (termed antisense homology boxes) are separated by approximately fifty amino acids. Because many sense–antisense peptide pairs have been reported to recognize and bind to each other, antisense homology boxes may be involved in folding, chaperoning and oligomer formation of proteins. The antisense homology box–derived peptide CALSVDRYRAVASW, a fragment of human endothelin A receptor, proved to be a specific inhibitor of endothelin peptide (ET–1) in a smooth muscle relaxation assay. The peptide was able to block endotoxin–induced shock in rats as well. Our finding of endothelin receptor inhibitor among antisense homology box–derived peptides indicates that searching proteins for this new motif may be useful in finding biologically active peptides.

Endothelin 1 induces leukocyte adhesion in submucosal venules of the rat small intestine.

BACKGROUND & AIMS The release of endothelin 1 (ET-1) and the activation of leukocytes are involved in the pathophysiology of gastrointestinal ischemia/reperfusion injuries. The aim of this study was to define the in vivo relation between ET-1 and endothelial cell-leukocyte interactions. METHODS Anesthetized rats were studied to characterize the microvascular effects of increasing doses of local and systemic infusions of ET-1 in all layers of an ileal segment. Leukocyte-endothelial interactions were monitored with intravital fluorescence videomicroscopy. The ETA receptor-selective antagonist BQ 610, the novel ETA-receptor antagonist ETR-PI/fl peptide, and the ETB-receptor antagonist IRL 1038 were used to investigate the roles of receptor subtypes. RESULTS The functional capillary density of the mucosa was significantly decreased by 3 nmol/kg intravenous ET-1. After 30 minutes the rolling fraction of leukocytes reached 90% in the postcapillary venules, and the number of adherent leukocytes was significantly increased after 90 minutes. ETR-PI/fl peptide inhibited leukocyte rolling by 88%, BQ 610 by 73%, and IRL 1038 by 30%. Both ETA-receptor antagonists prevented ET-1-induced firm adhesion. The ETA-receptor antagonists but not IRL 1038 inhibited the ET-1-induced lymphatic muscle and mucosal capillary perfusion failure. CONCLUSIONS ET-1 induces leukocyte rolling and adherence through a predominantly ETA receptor-mediated mechanism in the submucosal venules of the intestinal microcirculation.

Complement C5a anaphylatoxin fragment causes apoptosis in TGW neuroblastoma cells.

Human neuroblastoma TGW cells express a C5a anaphylatoxin receptor-like molecule termed neuronal C5a receptor. A C5a-receptor fragment peptide (termed PR226-multiple antigenic peptide) can induce rapid apoptosis in TGW cells via neuronal C5a receptor-associated signal transduction pathways. In order to analyse role of activated complement system in neurodegeneration, TGW cells were exposed to an oligomer form of a C5a fragment (amino acids: 37-53) peptide termed PL37-multiple antigenic peptide. Upon treatment with PL37-multiple antigenic peptide, an increased nuclear c-fos expression was shown within 30 min. DNA fragmentation, a hallmark of apoptosis, was noted within 4 h. Extracellular administration of 100 nM PL37-multiple antigenic peptide evoked inward calcium current pulses. At higher doses (0.5 microM-1 microM), PL37-multiple antigenic peptide evoked higher current pulses, followed by an irreversible, high inward current. To exert its apoptotic effect, PL37-multiple antigenic peptide utilizes a pertussis toxin-sensitive signal transduction pathway associated with the neuronal C5a receptor. Activation of the complement system and therefore release of C5a has already been reported in Alzheimers disease. In addition, the presence of the Kunitz-type proteinase inhibitors indicates an impaired protease function and a possible abnormal fragmentation of C5a anaphylatoxin. Our data suggest that neurons expressing neuronal C5a receptor are more vulnerable to the apoptosis associated with the neuronal C5a receptor and the possibility that abnormal activation of C5a receptor and C5a anaphylatoxin fragments might be involved in the pathogenesis of Alzheimers disease.

A neuronal C5a receptor and an associated apoptotic signal transduction pathway

1 We report the first experimental evidence of a neuronal C5a receptor (nC5aR) in human cells of neuronal origin. Expression of nC5aR mRNA was demonstrated by the reverse transcriptase‐polymerase chain reaction (RT‐PCR) in TGW human neuroblastoma cells. 2 Expression of a functional C5aR was supported by the finding that C5a evoked a transient increase in the intracellular calcium level as measured by flow cytometry (FACS). 3 To analyse the function of the nC5aR, an antisense peptide fragment of the C5aR was used. Previous data showed that a C5aR fragment (a peptide termed PR226) has C5aR agonist and antagonist effects in U‐937 cells depending on the concentration of the peptide. We found that a multiple antigenic peptide (MAP) form of the same peptide (termed PR226‐MAP) induced rapid elevation of nuclear c‐fos immunoreactivity and resulted in DNA fragmentation, a characteristic sign of apoptosis, in TGW cells. 4 Early electrophysiological events characteristic of apoptosis were also detected: intermittent calcium current pulses were recorded within 1–2 min of peptide administration. C5a pretreatment delayed the onset of this calcium influx. 5 We also demonstrated that the apoptotic pathway is linked to nC5aR via pertussis toxin‐sensitive G‐proteins. 6 Although the function of C5a and its receptor on neurons is unknown, these results suggest that an abnormal activation of this signal transduction pathway can result in apoptosis and, subsequently, in neurodegeneration.

CD59 blocks not only the insertion of C9 into MAC but inhibits ion channel formation by homologous C5b-8 as well as C5b-9

Activation of the complement system on the cell surface results in the insertion of pore forming membrane attack complexes (MAC, C5b‐9). In order to protect themselves from the complement attack, the cells express several regulatory molecules, including the terminal complex regulator CD59 that inhibits assembly of the large MACs by inhibiting the insertion of additional C9 molecules into the C5b‐9 complex. Using the whole cell patch clamp method, we were able to measure accumulation of homologous MACs in the membrane of CD59− human B‐cells, which formed non‐selective ion channels with a total conductance of 360 ± 24 pS as measured at the beginning of the steady‐state phase of the inward currents. C5b‐8 and small‐size MAC (MAC containing only a single C9) can also form ion channels. Nevertheless, in CD59+ human B‐cells in spite of small‐size MAC formation, an ion current could not be detected. In addition, restoring CD59 to the membrane of the CD59− cells inhibited the serum‐evoked inward current. The ion channels formed by the small‐size MAC were therefore sealed, indicating that CD59 directly interfered with the pore formation of C5b‐8 as well as that of small‐size C5b‐9. These results offer an explanation as to why CD59‐expressing cells are not leaky in spite of a buildup of homologous C5b‐8 and small‐size MAC. Our experiments also confirmed that ion channel inhibition by CD59 is subject to homologous restriction and that CD59 cannot block the conductivity of MAC when generated by xenogenic (rabbit) serum.

Complement C5a Receptor-Mediated Signaling May Be Involved in Neurodegeneration in Alzheimer’s Disease

In our earlier results, we demonstrated that cells expressing the complement C5aR are vulnerable since abnormal activation of C5aR caused apoptosis of these cells. In this study, we demonstrate that activation of C5aR by antisense homology box (AHB) peptides synthesized in multiple antigenic peptide form and representing putative interaction sites of the C5a/C5aR evoked calcium influx in TGW neuroblastoma cells. Dose-dependent inhibition of the response was found when the cells were pretreated with C5a, suggesting that C5aR was involved in this process. In addition, pretreatment with monomeric forms of the AHB peptides resulted in attenuation of the calcium signals, supporting the idea of the role of C5aR in this process. Cells of a neuron-rich primary culture and pyramidal cells of rat brain slices also responded to the AHB peptide activation with an increase in the intracellular calcium level, showing that calcium metabolism might be affected in these cells. TUNEL staining demonstrated that C5aR-mediated apoptosis could be induced both in cells of the primary culture as well as in cortical pyramidal neurons of the rat brain. In addition, we investigated expression of C5aR in the hippocampal and cortical neurons of human brains of healthy and demented patients using two anti-human C5aR Abs. Pyramidal cells of the hippocampus and cortex and granular cells of the hippocampus were immunopositive on staining. Although staining was also positive in the vascular dementia brain, it disappeared in the brain with Alzheimer’s disease. These results provide further support that C5aR may be involved in neurodegeneration.

Inactivation of C5a Anaphylatoxin by a Peptide That Is Complementary to a Region of C5a

PL37 (RAARISLGPRCIKAFTE) is an antisense homology box peptide composed of aa 37–53 of C5a-anaphylatoxin and is considered to be the region essential for C5a function. Using a computer program, we designed the complementary peptides ASGAPAPGPAGPLRPMF (Pep-A) and ASTAPARAGLPRLPKFF (Pep-B). Pep-A bound to PL37 and to C5a with very slow dissociation as determined by analysis using surface plasmon resonance, whereas Pep-B failed to bind at all. C5a was inactivated by concentrations of 7 nM or more of Pep-A, and this concentration of Pep-A inhibited induction of intracellular Ca2+ influx in neutrophils. Patch clamp electrophysiology experiments also showed the effectiveness of Pep-A in C5aR-expressing neuroblastoma cells. Furthermore, Pep-A administration prevented rats from C5a-mediated rapid lethal shock induced by an Ab to a membrane inhibitor of complement after LPS sensitization.

Endothelin (ET)-1 induced mucosal damage in the rat small intestine : Role of ETA receptors

The role of endothelin (ET)-1 as a mediator of small intestinal mucosal perfusion failure and tissue damage was investigated in the rat using intravital fluorescence videomicroscopy. The effects of intravenous infusion of ET-1 (3 nmol/kg) on functional capillary density, mucosal thickness, and the degree of mucosal damage were evaluated. Administration of ET-1 caused pronounced mucosal injury with a significant reduction of mucosal thickness compared with vehicle-treated control animals. Concomitantly, villous functional capillary density was markedly reduced 30 and 90 min after the infusion of ET-1. ETA receptor blockade by pretreatment with BQ 610 or with the novel ETA receptor antagonist ETR-P1/FL peptide prevented ET-1 induced capillary perfusion failure and mucosal damage. In contrast, the ETB receptor antagonist IRL 1038 was not effective. These results indicate that, acting via the ETA receptor, elevated levels of circulating ET-1 under various pathophysiological conditions, such as septic or hemorrhagic shock, might impair nutritive perfusion of the intestinal mucosa and contribute to tissue injury.

C5a receptor expression by TGW neuroblastoma cells

We recently reported that not only lymphoid cells, but cells of neuronal origin may harbor C5a receptors (C5aR) as suggested by results of RT-PCR testing and that an apoptotic pathway is associated with the C5aR. To determine whether C5aR is expressed as an integral membrane protein, we generated mono- and polyclonal anti-C5aR antibodies. Flow cytometry showed a low-level expression of C5aR in TGW neuroblastoma cells. Epitope mapping suggested that a conformation change in C5aR occurs when exposed to C5a. Although an aphysiologically high concentration of C5a is necessary for inducing a transient increase in the intracellular Ca2+ level, TGW cells do employ the signal transduction pathway associated with C5aR, suggesting that these cells may serve as putative model for C5aR-expressing neurons.

A Novel Genetic Algorithm for Designing Mimetic Peptides That Interfere with the Function of a Target Molecule

We designed a new computer program (MIMETIC), which generates a series of peptides for interaction with a target peptide sequence. The genetic algorithm employed ranks the sequences obtained from one generation to the next by “goodness of fit” to the target. MIMETIC designed recognition peptides to various regions of HIV‐1 reverse transcriptase. Among ten peptide candidates synthesized, three inhibited reverse transcription in vitro. TLMA2993 and PSTW1594 both targeted the connection domain of reverse transcriptase and ESLA2340 targeted the thumb domain.