Comparison between three adjuvants for a vaccine against canine leishmaniasis: In vitro evaluation of macrophage killing ability.

The aim of this study was to evaluate, in terms of dog macrophage killing ability in vitro, a vaccine based on Leishmania infantum promastigote soluble antigen (LSA) formulated with three different adjuvants (BCG, AdjuPrime, MPL/TDM/CWS). A significant increase of the macrophage killing ability was observed in dogs vaccinated with LSA+MPL/TDM/CWS after 1 month from vaccination. A similar increase of macrophage parasitocidal ability was present only after 5 months in dogs vaccinated with LSA+BCG or LSA+AdjuPrime. In all dogs the augmented killing percentage was still present after 12 months from vaccination. Therefore, in particular LSA+MPL/TDM/CWS vaccine seems promising for further studies in dogs.

Structural relatedness between the 18S rRNA genes and the formyl peptide receptor genes: new insights into the phylogenesis of immune receptors.

In this study the authors examined the sequences of the ribosomal 18S rRNA of Drosophila and man and 16 mRNA sequences coding for different members of the family of the mammalian formyl peptide receptors (FPRs). The positions in the sequences of all >or=7-base oligonucleotide identities occurring in at least one of the 18S rRNAs and one of the FPR mRNAs were recorded. On the basis of the positional data, the Drosophila 18S-FPR and human 18S-FPR distances (in nucleotides) were determined for each identity. Then the actual frequency distribution of the distances (grouped into 200-unit classes) was derived. The theoretical frequency distribution of distances was also calculated under the assumption of non-relatedness between the 18S and FPR sequences. Comparison between the theoretical and the actual distributions showed that at class -500 (range from - 400 to - 600) of the 18S-FPR values the actual frequency was significantly (p < 0.01) higher than the theoretical frequency, in both Drosophila and man, suggesting that the second section of the FPR genes (approximately from nucleotide 400 to the end of sequence) may be structurally related to the first section of the ribosomal 18S genes (approximately nucelotides 1-650). The authors advance the hypothesis that the two families of genes may have used common ancestral raw genetic materials in the building of the extant sequences.

Mutation, selection, and functional repair in formyl peptide receptor genes: a view on the selection processes occurring in this gene subfamily.

Formyl peptides (FPs) released by some bacteria are powerful chemoattractants and activators of granulocytes, monocytes, and macrophages, acting through the members of a subfamily of specific seven-transmembrane G-protein-coupled formyl peptide receptors (FPRs), which are expressed only in mammals. Upon stimulation, granulocytes chemotactically move towards sites of maximal FP concentration, and release different bactericidal lytic enzymes and reactive oxygen species (ROI). In some instances, such as ischemia/reperfusion, the proinflammatory mediators released by the injured tissues and the intestinal bacteria and endotoxins, which may permeate across the damaged mucosal barrier, prime the inflowing granulocytes for an enhanced ROI production, resulting in severe damage to the host tissues. In this investigation 16 representative FPR and FPR-like mRNAs were selected to study the pattern of mutation/conservation of the individual nucleotides (nt) in the coding sequences. Mutations occur in 56.7%, 46.4%, and 87.5 % of cases in the first, second, and third nt, respectively, of the coding triplets. A probabilistic analysis demonstrated a significant nonrandom linkage between mutations in the first and second nt. Furthermore, the triplets that are variously double-mutated in the first two nt code, on average, for more hydrophobic amino acids (AA) in the transmembrane segments and more hydrophilic AA in the external and intracytoplasmic segments, thus preserving the general structure of the receptor. The authors hypothesize that when in one of the first two nt a mutation leading to a nonfunctioning protein product occurred, the mutated gene was eventually eliminated; however, a second mutation occurring in the other previously unmutated nt may have led to a protein product that is compatible with functional activity, although mutated in one (noncritical) AA. Such double mutations effecting a "functional repair" have thus survived and are retained among the extant sequences. Moreover, the combined mutation of all three nt in coding triplets occurs with a significantly higher than random frequency and this finding may be interpreted in a similar way.

The Structure of the 18S rRNA, a molecule that might be evolutionarily related to some receptors of innate immunity.

Comparisons between the sequences of insect and vertebrate 18S rRNAs and the sequences of mammalian formyl peptide and some vertebrate chemokine receptor mRNAs demonstrated non-random structural similarities between these two groups of RNAs. It has been proposed that sections of the more ancient and conserved rRNA genes could have participated in the building of these more recent genes involved in immune responses. Here we analyze the sequence architecture of the 18S rRNA in insects (Drosophila simulans) and vertebrates (man), in terms of similarities between selected segments within the individual molecules. The insect and vertebrate 18S rRNAs are basically similar, but show specific insertions/deletions and base changes. In spite of these differences, in both sequences a significantly higher-than-expected (by random occurrence) number of 7-or-more-base oligonucleotide repeats was observed between segments roughly corresponding to nt 350-1050 and nt 1150-1850, with mutual between-repeats distances comprised in the range 700-900 nt. Based on this result we performed a multialignment of segments 317-1035 of Drosophila, 360-1005 of man, 1096-1864 of Drosophila, and 1066-1736 of man, the first two segments covering the region of first occurrence of the repeats and the last two the region of recurrences. At both ends of these segments the four sequences could be aligned with relatively minor gaps and the number of base identities in all four sequences was significantly higher than expected by random coincidences. These results support the hypothesis that an ancestral gene structure, composed of a chain of about 700 nt, duplicated to form a two-unit tandem repeat which still represents the most substantial part of the 18S rRNA molecule in extant insects and vertebrates.

Modeling of granulocyte cytoskeletal responses following fMLP challenging.

Formyl peptides released from Gram-negative bacteria ligate a group of specific mammalian receptors, expressed mainly on granulocytes, monocytes, and macrophages. Receptor ligation activates different transduction cascades, eventually leading to the release of reactive oxygen species and other bactericidal chemical species, and the activation of the actin cytoskeleton with extension of lamellipodia and migration toward the sites of maximal formyl peptide concentration. In vitro, under conditions of nongradient formyl peptide concentrations, lamellipodia form all around the cell contour (chemokinesis). In granulocytes challenged under these conditions with N-formyl-methionyl-leucyl-phenylalanine, (i) the power spectrum of the contour of activated cells shows a peak at a specific periodicity, indicating that the lamellipodial extension is not completely random but stochastically conforms to a deterministic scheme, and (ii) the morphological response (percent of cells exhibiting chemokinesis) tends to reach a maximum at certain drug concentrations, then declining at higher concentrations. Accordingly, the logarithm of the drug concentration-polarizing effect curve is bell-shaped. Herein we illustrate theoretical models for the simulation of these two components of the chemokinetic responses. We show that the main traits of the general morphology and arrangement of lamellipodia may be simulated by an algorithm that starting from a situation of random distribution of active receptors on the cell membrane, encompasses in the successive calculation cycles both a local autocatalytic enhancement of the actin polymerization and a relative inhibition of the actin polymerization at some distance from the more active polymerization foci. In addition, a drug log concentration-polarizing effect bell-shaped curve may be simulated by assuming that the N-formyl-methionyl-leucyl-phenylalanine, while binding with high affinity to the specific receptor, is also able to bind to another lower affinity receptor that may effect depolarizing actions or, more generally, metabolic blocking effects. Under these conditions, at low drug concentrations the polarizing effect brought about by the ligation of the specific receptor is largely predominant. However, as the drug concentration increases and the specific receptors approach saturation, the inhibitory effects become more and more powerful and the net polarizing effect is reduced.

Formyl peptide receptors on immune and nonimmune cells: analysis of sequence conservation in FPR genes.

Formyl peptides are oligopeptides released by Gram-negative bacteria. So far, specific formyl peptide receptors (FPRs) have been described in mammals only. FPRs are seven-transmembrane G-coupled molecules and make up a relatively homogeneous group, although exhibiting different levels of affinity for the ligands. We examined the patterns of conservation/mutation within the FPR group of genes, as studied in 16 mRNAs from different species. Following alignment of the coding sections, those nucleotides identical in at least 15 sequences were assigned a "conservation index" 2; those with 8-14 identities an index 1; those with less than 8 identities an index zero. The cumulative average conservation index was 1.36. The autocorrelation function and the power spectrum of the whole series of indexes demonstrated a 3-unit periodicity. This periodicity is explained by the fact that the average conservation indexes of the first, second and third nucleotides of the coding triplets were 1.46, 1.55 (both above the mean), and 1.06 (below the mean), respectively, so that correlations at lag 3 tend to be all positive. In mRNAs, regardless of the position in the coding triplets, T is significantly more frequently conserved (average index = 1.60) than A, C, and G (1.21 - 1.38). In the nucleotides with conservation index 1 or zero, we recorded the two more frequently represented bases. In 35% of mRNA nucleotides the two more frequently represented bases were C and T; in 28% of cases the two more frequently represented bases were A and G; other couples occurred with lower frequencies. Both mutations may arise following C methylation with subsequent transformation into T (by deamination), either in the template or the coding DNA strand. Thus, we hypothesized that in FPR mRNAs there is an evolutionary trend of transformation from G to A and from C to T, the latter being the more stable of the bases.

Formyl peptide receptor expression in birds.

N-formyl-methionyl-leucyl-phenylalanine (fMLP) is a major chemotactic factor produced by Escherichia coli and other Gram-negative bacteria. The prototypal human fMLP receptor 1 (FPR1) was cloned in 1990 from a differentiated HL-60 myeloid leukemia cell cDNA library. In transfected cells, FPR1 binds fMLP with high affinity and is activated by picomolar to low nanomolar concentrations of fMLP in chemotaxis and calcium ion mobilization assays. Two additional human genes, designated FPR-like 1 (FPRL1) and FPR-like 2 (FPRL2), were later isolated by low-stringency hybridization using FPR1 cDNA as a probe, and these were shown to cluster with FPR1 on chromosome 19q13.3. In avian models the fMLP effects and the possible expression of FPRs have been poorly investigated. In this study we demonstrated that stimulation with fMLP of cultured cells isolated from the 10-day chick embryo brain causes superoxide anion and nitric oxide release and protein phosphorylation at serine, threonine, and tyrosine residues. These effects were abrogated by pretreatment with pertussis toxin, suggesting the involvement of a G-protein-coupled receptor (GPCR). Although specific N-formyl peptide receptors have so far been demonstrated only in mammals, a specific polyclonal antihuman-FPR1 antibody proved to bind to the membrane of both neurons and glial cells isolated from the chick brain. Immunoblot analysis revealed a single band corresponding to 60 kDa ca. A BLAST search and aa sequence alignments demonstrated that a number of avian 7-transmembrane (7TM) GPCRs share some homologies with the human FPR1. Furthermore, the CXCR4 ligand, SDF-1alpha, seems to compete with the antihuman-FPR1 polyclonal antibody used in our experiments. We thus advance the hypothesis that in birds one (or more) of the expressed 7TM GPCRs, most probably chemokine receptors belonging to the CXCR4 subfamily, also may act as fMLP receptors.

Chemokine CXC receptor 4: an evolutionary approach.

Selected segments of the nucleotide sequences of the human 18S rRNA and the human formyl peptide receptor 1 mRNA exhibit structural similarities that are unlikely to be due simply to chance. Herein we analyze the structural similarities between the human 18S rRNA gene and the vertebrate chemokine CXC receptor 4 (CXCR4) gene that encodes a class A (rhodopsin-like) seven-transmembrane G-protein coupled receptor belonging to the same superfamily of formyl peptide receptors. The method of study was based on the recording of the positions of the 7-or-more-base oligonucleotide identities encountered in the 18S and CXCR4 genes and the construction of scatter-plots (abscissa-18S; ordinate-CXCR4) displaying the identity points positions. Analysis of the distribution of distances between identity points (abscissa-ordinate in the scatter-plot) demonstrated distinct peaks of frequency around 1200. Series of identities arranged near diagonal lines at 45 degrees in the scatter-plot (quasialignments) were evaluated for their probabilistic level of random occurrence. Results of this analysis demonstrated nonrandom quasialignments between (i) a 900-nt ca. section of the human CXCR4 intron that immediately precedes almost the whole of the coding sequence and the 18S gene from nt 125 to 1025 ca.; and (ii) a 425-nt ca. section of the CXCR4 vertebrate genes, corresponding to nt 137-560 of the coding sequence, and the 18S gene from nt 1300 to 1730 ca. In both instances significant quasialignments are evidenced when CXCR4 nt sequences are shifted to the right by about 1200 nt with respect to the 18S nt sequence, as confirmed by analysis of the abscissa - ordinate differences. Taken together, these results indicate that, at least in humans, a continuous nonrandom quasialignment extends for some 1600 nt, from the second part of the (single) intron to the first part of the coding sequence. We hypothesize that the relatively more recent CXCR4 vertebrate gene might be evolutionarily related to the more ancient and highly conserved 18S gene.

Evolution of a "conserved" amino acid sequence: a model study of an in silico investigation of the phylogenesis of some immune receptors.

In this paper we analyze a 55-amino acid (aa) sequence which is relatively well conserved in several seven-transmembrane receptor families (from Insects to Mammals) and in some Viruses. This sequence, which covers the second transmembrane domain, the first extracellular loop and the third transmembrane domain, appears in its complete configuration in most of the seven-transmembrane receptor families, as well as in the protein products of some viruses. Other seven-transmembrane receptors and viruses exhibit reduced configurations of the conserved sequence, lacking either aa 31 or aa 30-31. 53-aa configurations are typically found in most chemokine receptor (CKR) subfamilies, as well as in some viral protein products. However, the CCR1, CCR3, and CCR6 subfamilies comprise a 54-aa configuration and the CKR-related protein products, ChemR23 and RDC1, include the complete 55-aa sequence. For each CKR subfamily the "modal sequence" of the conserved segment was constructed by selecting the most frequently occurring aa at each position. Then, pairwise alignments were made between: (i) the modal CKR sequences, and (ii) the sequence (53-aa) of the Yaba-like disease virus - 7L protein. From the alignments two consensus matrices were derived: (i) the consensus 1 matrix with reference to the whole conserved segment, and (ii) the consensus 2 matrix with reference to aa 22-29, which appear to be the most variable segment of the sequence. Based on the obtained consensus values and with reference to this specific conserved segment, the following conclusions are proposed: (1) ChemR23 and RDC1 are probably the more primitive CKR forms; (2) CCR1 and CCR3 may be grouped in a single cluster; (3) CCRs 2, 4, and 5 are closely related to each other and may be grouped in a cluster; CCR7 is likely to be evolutionarily related to this cluster; (4) CXCRs 2, 3, and 4 and CCX CKR appear to be evolutionarily related to each other and very likely derived from an CCR6-like gene; (5) CCR2/4/5 and CCR7 may have derived either from CCR1/3-like or CCR6-like genes; (6). The Yaba-like disease virus--7L protein most likely derived, through "molecular piracy", from a CCR8-like gene. We also discuss possible, more remote, evolutionary links between CKRs, formylpeptide receptors, and possibly the highly conserved 18S rRNA genes.

Divergent phenotype of two siblings human leukocyte antigen identical, affected by nonclassical and classical congenital adrenal hyperplasia caused by 21-hydroxylase deficiency.

CONTEXT: Congenital adrenal hyperplasia (CAH) is a group of autosomal recessive disorders most often caused by enzyme 21-hydroxylase deficiency. Most mutations causing enzymatic deficiency are generated by recombinations between the active gene CYP21 and the pseudogene CYP21P. Only 1-2% of affected alleles result from spontaneous mutations. The phenotype of CAH varies greatly, usually classified as classical or nonclassical, depending on variable degree in 21-hydroxylase activity. Here we report a divergent phenotype of two human leukocyte antigen identical siblings, affected by nonclassical and classical CAH caused by 21-hydroxylase deficiency due to different genotype. PATIENTS AND METHODS: Using direct sequencing method and Southern blot, we studied two children (one male and one female), affected, respectively, by nonclassical and classical CAH and their parents. RESULTS: The mother was heterozygous for the Q318X mutation, and the father was heterozygous for the V281L mutation. The brother was a compound heterozygote for the mutations V281L and Q318X, whereas the proband was compound heterozygote for the Q318X mutation and a large conversion. The two children are human leukocyte antigen identical (A*02;B*14;DRB1*01/A*33;B*14;DRB1*03). CONCLUSIONS: Different phenotype of the proband is the result of compound heterozygosity for the maternal mutation Q318X and a de novo large conversion.

Autoantibodies from Sjögren's syndrome induce activation of both the intrinsic and extrinsic apoptotic pathways in human salivary gland cell line A-253.

Sjögren's syndrome (SS) is an autoimmune rheumatic disease that targets salivary and lachrymal glands, characterized by a high concentration of serum autoantibodies directed against nuclear and cytoplasmic antigens. It is known that autoantibodies can enter viable cells and this phenomenon has functional consequences including activation of apoptotic process. The objective of this work was to explore whether autoantibodies contained in IgG purified from Sjögren sera trigger apoptotic process in an experimental model represented by the human salivary gland cell line A-253. To define if the intrinsic or extrinsic pathways are activated, we examined which caspases are critical for inducing cell death. The results have demonstrated that morphological changes and DNA laddering, consistent with apoptotic cell death, occurred in A-253 cells treated with IgG from Sjögren sera. Sjögren IgG induced cleavage and activation of the effector caspase-3 and degradation of the caspase-3 substrate poly(ADP-ribose)polymerase. Both the intrinsic and extrinsic apoptotic pathways were activated, since both caspase-8 and caspase-9 cleavages occurred. In conclusion, autoantibodies contained in IgG purified from Sjögren sera mediate apoptosis of the A-253 cell line in a caspase-dependent manner.

Biological role of the N-formyl peptide receptors.

Ligation of N-formyl-methionyl-leucyl-phenylalanine (fMLP) to its specific cell surface receptors triggers different cascades of biochemical events, eventually leading to cellular activation. The formyl peptide receptors (FPRs) are members of the seven-transmembrane, G-protein coupled receptors superfamily, expressed at high levels on polymorphonuclear and mononuclear phagocytes. The main responses elicited upon ligation of formylated peptides, referred to as cellular activation, are those of morphological polarization, locomotion, production of reactive-oxygen species and release of proteolytic enzymes. FPRs have in recent years been shown to be expressed also in several non myelocytic populations, suggesting other unidentified functions for this receptor family, independent of the inflammatory response. Finally, a number of ligands acting as exogenous or host-derived agonists for FPRs, as well as ligands acting as FPRs antagonists, have been described, indicating that these receptors may be differentially modulated by distinct molecules.

Polimorphonuclear cell-mediated oxidative stress: sink for reactive oxygen species and cell various type damage.

Reactive oxygen species (ROS) are produced in animals and humans under physiologic and pathologic conditions. Polymorphonuclear cells (PMNs) and other professional phagocytes are able to generate large amounts of ROS that have not only antimicrobial capacity but are also deleterious to mammalian cells and responsible for many chronic diseases. In particular, ROS produced in large amounts by the massively infiltrating leukocytes in inflammed tissues are believed to constitute a major tissue-destructive force and may contribute significantly to the pathogenesis of several inflammatory diseases. Inflammation can accelerate the development of cancer: in fact, it seems that a part of the predisposition to cancer may be attributed to the oxidants released by the phagocytes at inflammatory site and then to the effects of continuous damage over a life span by ROS. The focus of this study was to investigate the differential capacity of ROS capture and the relative cellular damage degree in gastric, intestinal and fibroblastic cell lines. These various cell types were in vitro used as sink for ROS released by co-cultured fMLP-stimulated human polymorphonuclear cells. Our data demonstrated that cell lines showed a differential capacity of ROS capture correlated to cellular damage, probably due to a different cell susceptibilty to the oxidative challenge produced by stimulated PMNs.

Structural similarities between mRNA for the formyl peptide receptors and 18S rRNA.

Formyl peptides released by some bacteria are powerful chemoattractants and activators of mammalian granulocytes and monocytes, acting through 7-transmembrane specific formyl peptide receptors (FPRs). Three distinct segments of the formyl peptide receptor 1 (FPR1) mRNA of Man share probabilistically significant homologies with segments of the 18S rRNA which are highly conserved from Drosophila to Man. Overall, the three segments cover approximately 24% that of the 18S rRNA sequence and approximately 36% of the FPR1 sequence. The three segments are, however, arranged in different orders in the 18S rRNAs and in the FPR1 mRNA, the segment appearing in the first location in the 18S rRNAs is located at the end of the FPR1 mRNA sequence. The hypothesis is advanced that the three "conserved" segments either derive from an ancestral gene that is the forerunner of both the ribosomal 18S genes and the FPR genes or that at some stage of evolution the FPR genes derived, at least in part, from the more ancient ribosomal 18S genes. The extant 18S rRNA sequences exhibit obvious signs of a number of breaks that occurred during evolution, especially in the transition from insects to vertebrates. Some of these events may have resulted in differential rearrangements of segments in the groups of FPR genes and ribosomal 18S genes.

Final height in short polytransfused thalassemia major patients treated with recombinant growth hormone.

We measured the final height (FH) of 25 short polytransfused thalassemia major (Th) patients (18 males) with a reduced GH reserve treated for 3.3 +/- 1.2 yr with recombinant GH (rhGH), 0.2 mg/kg/week sc. At baseline, all patients were clinically prepubertal; their chronological (CA) and bone ages (BA) were 13.6 +/- 2.0 and 11.4 +/- 1.6 yr, respectively. In 9 out of 18 males and 5 out of 7 females, the onset of puberty occurred spontaneously during the treatment. At the end of the rhGH administration, the height of the enrolled children was not significantly increased when calculated for CA (HxCA), while it was significantly decreased (p=0.004) when calculated for BA (HxBA); the BA increase (3.29 +/- 1.65 yr) was significantly higher (p<0.001) than the height age increase (2.16 +/- 0.98 yr). The FHxCA showed a significant increase (p=0.001) compared to both baseline and the end of therapy, while the FHxBA was significantly decreased (p<0.001) compared with the corresponding value at baseline. At the end of therapy, both HxCA and HxBA resulted positively related to the BA at baseline (r=0.50 and 0.42, p=0.012 and 0.034, respectively). FH was positively correlated with CA (r=0.63, p=0.001), BA (r=0.68, p<0.001) and HxBA (r=0.59, p=0.002) evaluated at baseline, and with both HxCA and HxBA (r=0.82 and 0.74, respectively, p<0.001), evaluated at the end of treatment. A negative correlation was found between FH and the length of treatment (r=-0.56, p=0.004). Our data seem to exclude that prolonged rhGH therapy could improve FH in Th patients; on the contrary, a negative effect may be hypothesized.

Reduced expression of the chemokine receptor CCR1 in human macrophages and U-937 cells in vitro infected with Leishmania infantum.

Chemokines exert their actions through G-proteinlinked receptors, which are expressed to variable extents by different cell types. In accordance with the chemokine classification, these receptors are designated as CXC, CC, XC, and CX(3)C, followed by R and a number. The purpose of this investigation was to evaluate CCR1 expression in human peripheral blood-derived macrophages and the human monocytic U-937 cell line. Cells in vitro were infected with live Leishmania infantum promastigotes (zymodeme MON1); cell lysates were then subjected to SDS-PAGE and immunoblotting, by using an anti-CCR1 affinity purified polyclonal antibody. The expression of the CCR1 gene was analyzed by RT-PCR, using specific human primers. The results of both immunoblotting and RT-PCR showed that CCR1 expression in Leishmania-infected cells was lower than in uninfected control cells. These results indicate that Leishmania infantum infection causes a down-regulation of the CCR1 gene and protein expression, suggesting that reduced phagocyte recruitment at the inflammation sites could favor parasite progression and the spread of Leishmania infection.

Evidences for iNOS expression and nitric oxide production in the human macrophages.

Nitric oxide (NO) is a pleiotropic mediator of numerous biological processes, including smooth muscle relaxation, neurotransmission and defence against pathogens. In addition, NO is involved in the pathogenesis and control of inflammation, tumors, autoimmunity, and infectious and chronic degenerative diseases. NO, a highly reactive radical, is produced from L-arginine and oxygen by the enzyme NO synthase (NOS). Three NOS isoforms have been identified: two distinct NOS isoforms are constitutively expressed in cells, whereas a third isoform, inducible NOS (iNOS), is transcribed in response to specific stimuli. In particular, iNOS is responsible for the discontinuous synthesis of high amounts of NO and was originally characterized in murine macrophages after exposure to cytokines and/or microbial products. A wide range of microorganisms is sensibly inhibited in its development by NO, like fungi, bacteria, protozoa and viruses. Although NO production and its antimicrobial effect appear well established in rodent macrophages, the existence of L-arginine pathway in human mononuclear phagocytes has long been disputed. Recently, evidences showing the iNOS activity and NO production in other animal models, including humans, are now emerging, even if the NO induction has been more difficult to demonstrate. The present observations provide evidence for the occurrence of iNOS protein expression and NO production in human macrophages cultured in vitro.

Macrophage chemotactic protein-1 and macrophage inflammatory protein-1 alpha induce nitric oxide release and enhance parasite killing in Leishmania infantum-infected human macrophages.

Chemokines are a group of structurally defined small proteins that act as chemoattractants for leukocytes and are involved in many different biological activities, including leukocyte activation for antimicrobial mechanisms. We studied the effect of the chemokines monocyte chemotactic protein (MCP)-1 and macrophage inflammatory protein (MIP)-1 alpha on nitric oxide release and parasitocidal ability of peripheral blood-derived human macrophages in vitro infected with Leishmania infantum, zymodeme MON1. In infected human macrophages, treatment with MCP-1 or MIP-1 alpha significantly enhanced nitric oxide production and leishmanicidal ability, compared with untreated cells, to the same levels induced by interferon-gamma. Both nitric oxide release and parasitocidal ability of macrophages were significantly reduced by addition of L- N(G)monomethylarginine ( L-NMMA), which is a competitive inhibitor of the L-arginine nitric oxide pathway. These data suggest that MCP-1 and MIP-1 alpha mediate macrophage activation for nitric oxide release and subsequent parasite clearance, and thus may play a role in the containment of Leishmania infection.