The optimization of PpSP15 purification from salivary glands in Iranian wild Phlebotomus papatasi (Diptera: Psychodidae).

BACKGROUND & OBJECTIVES: Sand fly saliva contains proteins that modulate the host immune system and it plays an important role in both blood feeding and the outcome of Leishmania infections. The profile of the salivary proteins was examined and analyzed from an endemic focus of zoonotic cutaneous leishmaniasis by wild P. papatasi to find local and suitable antigens as potential proteins for developing Leishmania vaccine alongside the development of a new extraction technique. METHODS: Specimens were caught from Bojnord, using funnel and CDC traps. Different methods of protein extraction were employed and a new technique was developed. The proteins were extracted from the salivary glands tissues with a lysis buffer. Purification was performed using RP-HPLC, with a linear gradient protocol from 0-60 % of acetonitrile. PpSP15 was characterized by SDS-PAGE. RESULTS: The concentration of extracted protein content was 0.5 and 0.03 µg/µl in chemical and physical methods, respectively. PpSP15 was isolated at a weight of 15kDa in 80-85 min of run time. SDS-PAGE was able to characterize PpSP15. The crude extract of the chemical method, revealed 15 separated bands, ranging from 11-100 KDa. Tajima D index was positive. INTERPRETATION & CONCLUSION: PpSP15 was characterized from Iranian specimens; it is a very highly hydrophobic protein of salivary glands among SP15- like proteins. The chemical method of extraction was found to be more effective than physical methods (P < 0.05). For developing a vaccine against leishmaniasis, depending on the location, choosing suitable proteins should be considered and an efficient extraction method should be used.

Detection and differentiation of Leishmania parasites in asymptomatic canine by High-Resolution Melting analysis of microsatellite fragment in ITS gene.

The high prevalence of Leishmania infection was reported in dogs as the main reservoir of CanL in many locations in the old world. Detection and firmly identification of Leishmania species in asymptomatic dogs by reliable method was considered and employed. Non-invasive and non-anesthetized blood sampling in asymptomatic dogs was conducted. Nested, conventional and real-time PCR with HRM technique was performed targeting ITS-rDNA gene. 88 asymptomatic dogs were sampled from three CanL endemic provinces of Iran in 2018-2019. 23 blood samples were Leishmania positive. L. major, L. tropica and L. infantum were accurately identified for the first time with HRM targeting ITS2-microsatellite. Three samples were mixed infections. CLC software TM predictions for microsatellite ITS-rDNA were 86.93 °C: L. major, 85.76 °C: L. tropica and 86.04 °C: L. infantum. Standard strains of Leishmania species were accurately separated with almost one to 2 °C deference (L. major: 86.61 °C, L. infantum: 85.41 °C, L. tropica: 84.82 °C). Each HRM curve represents one species in a sample for helping accurate identification of Leishmania species and even mixed infection when two curves are present. Detecting parasites at primary stages in asymptomatic cases is essential using Real-time HRM. As same as mammalian Leishmania in rodents which is present at early stages and non-pathogenesis, only L. major would exist and other Leishmania disappears. This can conclude also for L. major, L. infantum and L. tropica in dogs. The role of L. major existence in canine blood should be investigated more.

Three strains of Wolbachia pipientis and high rates of infection in Iranian sandfly species.

Individual wild-caught sandflies from Iran were examined for infections of Wolbachia pipientis by targeting the major surface protein gene wsp of this intracellular α-proteobacterium. In total, 638 male and female sandflies were screened, of which 241 were found to be positive for one of three wsp haplotypes. Regardless of geographical origins and habitats, Phlebotomus (Phlebotomus) papatasi and other sandfly species were found to be infected with one common, widespread strain of A-group W. pipientis (Turk 54, GenBank accession EU780683; AY288297). In addition, a new A-group haplotype (Turk07, GenBank accession KC576916) was isolated from Phlebotomus (Paraphlebotomus) mongolensis and Phlebotomus (Pa.) caucasicus, and a new B-group haplotype (AZ2331, GenBank accession JX488735) was isolated from Phlebotomus (Larroussius) perfiliewi. Therefore, Wolbachia was found to occur in at least three of the incriminated vectors of zoonotic cutaneous leishmaniasis and zoonotic visceral leishmaniasis in different geographical regions of Iran. It may provide a new tool for the future control of leishmaniasis.

Occurrence of low density of Leishmania infantum in sandflies from a new focus of visceral leishmaniasis in northwest of Iran.

BACKGROUND & OBJECTIVES: Observations and case studies have shown that the number of Visceral Leishmaniasis (VL) cases have increased in the recent years in several areas of Iran including Sarab district, East Azerbaijan province. Sarab district has been considered as a new focus of VL in Iran. The density of the sandfly vector and the Leishmania parasites causing infection has been assessed in 2009. METHODS: Sandfly species had been collected from Sarab district, East Azerbaijan province in 2009 using sticky papers and CDC traps. DNA of sandflies was extracted and nested PCR was amplified in a region of the ribosomal RNA amplicon of Leishmania (ITS1-5.8S rRNA gene), which was shown to be species-specific by DNA sequence. RESULTS: Altogether, 1317 male and female sandflies were trapped. At least 10 different sandfly species were identified morphologically. Leishmania infantum was the only Leishmania that was detected among the sandfly's population in Sarab district. All the infectious cases (4/223) found in the abundant sandfly region were Phlebotomus kandelakii. CONCLUSION: The diversity of sandflies was similar to those in the main VL focal points in Iran, but the diversity of parasite and density were significantly lower. The low prevalence of VL in Sarab district might be explained by the scarcity of infected domestic dogs Canis familiaris the primary reservoir host of VL in the region. By finding the L. infantum in P. kandelakii for the first time on this new focus, we are able to conclude that P. kandelakii might be the vector of L. infantum. In future, more works should be done to test status of P. kandelakii as a proven vector of L. infantum.

Molecular detection and conventional identification of leishmania species in reservoir hosts of zoonotic cutaneous leishmaniasis in fars province, South of iran.

BACKGROUND: The objectives of our research were to search for Leishmania species in rodents in Fars province, south of Iran, and to compare molecular with conventional methods for detecting these parasites. METHODS: Rodents were captured using live traps and screened for Leishmania species using molecular and conventional methods, including the taking of smears from each ear. Nested PCR was employed to detect Leishmania in rodents by amplifying a region of the ribosomal RNA amplicon of Leishmania (ITS1-5.8S rRNA-ITS2) that is species-specific by DNA sequence. RESULTS: Totally, 122 rodents were captured. Leishmania parasites were detected using the nested PCR and three conventional methods (direct smear, NNN culture and Balb/C inoculation. 41 (33.6%) out of 122 rodents had Leishmania infections (34 Meriones lybicus and 7 M. persicus). All PCR products of the ITS-rDNA gene were sequenced. Sequence analysis revealed that 28 out of 41 positive samples were Leishmania major. Thirteen sequences were unreadable and therefore not identified. CONCLUSION: At least two gerbil species common in Fars ZCL foci, M. lybicus and M. persicus, are acquiring infections of L. major and may be reservoir hosts of one predominant parasite haplotype. Most infections were detected molecularly not by conventional methods, because most rodents died in the traps.

Molecular characterization of sandflies and Leishmania detection in main vector of zoonotic cutaneous leishmaniasis in Abarkouh district of Yazd province, Iran.

OBJECTIVE: To assess molecular characterization, distribution, seasonal activities of sandfly species and Leishmania parasites infecting them for this zoonotic cutaneous leishmaniasis focus. METHODS: The collections were carried out in 2009-2011 using CDC traps, Sticky Papers and manual aspirator in and around the villages in Abarkouh district. Individual sandflies were characterized by PCR amplification and sequencing of fragments of their mitochondrial cytochrome b gene. Leishmania parasite infections within sandflies were performed by targeting Cyt b, ITS-rDNA, k-DNA and microsatellite genes. RESULTS: The PCR assays detected only Leishmania major (L. major). All infections (30) were found in the abundant and widespread vector Phlebotomus papatasi (P. papatasi). Small numbers of other sandfly species were also screened for infections, but none was found. Sergentomyia sintoni and P. papatasi were the predominant members in all locations of this district and in all habitats throughout the trapping season. Only five other sandfly species were found, namely Phlebotomus ansari, Phlebotomus caucasicus, Phlebotomus sergenti, Sergentomyia dentata and Sergentomyia merviney. CONCLUSIONS: In the current survey, the only infections detected are of L. major in females of P. papatasi (30 out of 190). The rates of infection of P. papatasi by L. major are not significantly different in compare with other locations in Iran with no diversity of parasite strains. Zoonotic cutaneous leishmaniasis may have emerged only recently in Abarkouh district, and the reason may well be the instability of the transmission cycles there.

Low diversity of Leishmania parasites in sandflies and the absence of the great gerbil in foci of zoonotic cutaneous leishmaniasis in Fars province, southern Iran.

BACKGROUND: Fars province lies to the south of the main foci of zoonotic cutaneous leishmaniasis (ZCL) caused by Leishmania major in central and northern Iran, and its ZCL foci might have emerged more recently because of different transmission cycles. However, there have been limited studies of the parasites infecting the regional sandfly vectors. METHODS: The diversities of sandflies and the Leishmania parasites infecting female sandflies were assessed for different habitats in Fars ZCL foci, 2008-2009, using standardized sandfly trapping and characterization of ribosomal DNA haplotypes of parasites. RESULTS: Vector diversity was similar to that in the main Iran ZCL foci, but parasite diversity was lower. Only Le. major was detected in Fars sandflies. Most infections were found in the abundant vector Phlebotomus papatasi collected in rodent burrows. Infections were detected for the first time in Iran in the related P. bergeroti. CONCLUSIONS: The failure to detect other gerbil parasites (Le. turanica, Le. gerbilli) is explained by the absence of one reservoir host, the great gerbil Rhombomys opimus. Other gerbils (Meriones species) may be the regional reservoir hosts, but transmission modelling is required for a better understanding of the emergence and stability of ZCL foci in Fars and other Iranian provinces.

Differential cytokine expression in T-cell subsets of chicken caecal tonsils co-cultured with three species of Lactobacillus.

Members of the intestinal microbiota play an important role in the development of T-cells. Little is known about responses of intestinal T-cell subsets of chickens to commensal bacteria. Therefore, we set out to characterise cytokine responses in T-cells after exposure to lactobacilli. Caecal tonsil mononuclear cells were isolated and co-cultured with Lactobacillus acidophilus, Lactobacillus reuteri and Lactobacillus salivarius for 12 hours. Subsequently the CD4+ and CD8+ cells were fractionated by flow cytometry and the expression of pro- and anti-inflammatory cytokines as well as Toll-like receptor 21 (TLR21) was determined. The results demonstrated that chicken CD4+ and CD8+ T-cells express TLR21 and that the various isolates of lactobacilli differentially induces the expression of interleukin 10, interferon-gamma and transforming growth factor beta. Our results demonstrate that different Lactobacillus species have the capacity to regulate intestinal T-cell responses and that these responses may be important to intestinal homeostasis.

Isolation and detection of Leishmania species among naturally infected Rhombomis opimus, a reservoir host of zoonotic cutaneous leishmaniasis in Turkemen Sahara, North East of Iran.

In Iran, three species of Leishmania have been incriminated as the causative agents of human leishmaniasis, Leishmania (L.) major, Leishmania tropica, and Leishmania infantum.Rhombomis opimus have been incriminated as a principal reservoirs of the parasitic protozoan Leishmania major, the causative agent of rural zoonotic cutaneous leishmaniasis (ZCL) in Iran. Rodents captured and examined to find Leishmania species using conventional methods including direct impression smear and microscopic observation inoculation samples to Balb/c and culture in NNN medium. Also molecular method was employed to detect Leishmania in rodents by amplifying a region of the ribosomal RNA amplicon of Leishmania (ITS1-5.8S rRNA-ITS2) using Nested PCR. Leshmania species were specified by DNA sequences. 36 (38.3%) of R. opimus were Leishmania positive using at least one conventional methods. Many more ITS-rDNA fragments were amplified from R. opimus but only 65 out of 74 PCR products contained enough DNA for direct sequencing or readable sequences. The PCR assays detected in Iranian R. opimus not only Leishmania major in 59 (79.7%) rodents but also Leishmania turanica in 6 (8.1%) rodents, another parasite of the great gerbil. These parasites were found in Turkemen Sahara, North East of Iran, in a focus of rural (ZCL). L. major and L. turanica in R. opimus firmly identified from Turkemen Sahara. Nine rodents with Leishmania infections unidentified which some were unreadable sequences, these could be mixed infections of L. major, L. turanica, Leishmania gerbillisensu lato and Leishmania close to L. gerbilli or a related species reported in sandflies previously from this location. The haplotypes of L. major and L. turanica were found to be identical to that of isolates of L. major and L. turanica from Iran and in GenBank elsewhere. R. opimus is probably the key reservoir in this ZCL focus because of its abundance and its infection rates with both L. major and L. turanica.

The Problem of Mixing up of Leishmania Isolates in the Laboratory: Suggestion of ITS1 Gene Sequencing for Verification of Species.

BACKGROUND: Leishmaniasis is endemic in Iran. Different species of Leishmania (L.) parasites are causative agents of this disease. Correct identification of Leishmania species is important for clinical studies, prevention, and control of the diseases. Mix up of Leishmania isolates is possible in the laboratory, so there is need for verification of species for isolates of uncertain identity. Different methods may be used for this purpose including isoenzyme electrophoresis and molecular methods. The isoenzyme electrophoresis, due to its drawbacks, is feasible only in specialized laboratories while molecular methods may be more feasible. The aim of this research was to study the application of the internal transcribed spacer 1 (ITS1) sequencing method, in comparison to isoenzyme electrophoresis method, for verification of Leishmania species. METHODS: Six Leishmania isolates were received from different research institutions in Iran. The species of these isolates were known by donating institution according to their isoenzyme profile. The species of these isolates were re-identified in Pasteur Institute of Iran by PCR amplification of ITS1 followed by sequencing and comparison of these sequences with Leishmania sequences in GenBank. Isoenzyme electrophoresis was performed for confirmation of the results of ITS1. RESULTS: ITS1 sequence showed that some isolates were mixed up or contaminated with Crithidia. Isoenzyme electrophoresis confirmed the results of ITS1 sequences. CONCLUSION: ITS1 sequencing is relatively more feasible than the traditional isoenzyme electrophoresis method and is suggested for verification of Leishmania species.

Complete conservation of an immunogenic gene (lcr1) in Leishmania infantum and Leishmania chagasi isolated from Iran, Spain and Brazil.

BACKGROUND & OBJECTIVES: Kala-azar is the visceral and most severe form of leishmaniasis that leads to death if untreated. The causative agents of visceral leishmaniasis (VL) are members of Leishmania (L.) donovani complex which includes L. chagasi and L. infantum. Genome sequences have raised the question whether L. chagasi and L. infantum are synonymous or different. This question has important implications for clinical and epidemiological studies, evaluation of vaccines and drugs, and disease control. LCR1 is an immunogenic molecule discovered from L. chagasi with potential as a component of a Leishmania subunit vaccine. If this protein has potentials for being used in a vaccine or diagnostic testing, there should be little variability in this molecule between L. infantum isolates from diverse geographic regions. The aim of this study was to determine whether lcr1 of an Iranian strain of L. infantum was identical to lcr1 of both L. infantum strain from a different geographic region (Spain) and that of an L. chagasi isolate from Brazil. METHODS: L. infantum isolated from an Iranian kala-azar patient was studied. Lcr1 from this isolate was PCR amplified, cloned, and studied by restriction digest analysis and sequencing. RESULTS: The sequences of lcr1 of the Iranian L. infantum were completely identical at nucleotide level to lcr1 sequences of both the Spanish L. infantum and the Brazilian L. chagasi strains. CONCLUSION: Complete conservation of the DNA sequence encoding for LCR1 molecule between geographically distinct Leishmania species adds credibility to the potential for LCR1 as a component of a subunit vaccine and diagnostic test for kala-azar.

Molecular typing and phylogenetic analysis of some species belonging to phlebotomus (larroussius) and phlebotomus (adlerius) subgenera (Diptera: psychodidae) from two locations in iran.

BACKGROUND: Haematophagous females of some phlebotomine sandflies are the only natural vectors of Leishmania species, the causative agents of leishmaniasis in many parts of the tropics and subtropics, including Iran. We report the presence of Phlebotomus (Larroussius) major and Phlebotomus (Adlerius) halepensis in Tonekabon (Mazanderan Province) and Phlebotomus (Larroussius) tobbi in Pakdasht (Tehran Province). It is the first report of these species, known as potential vectors of zoonotic visceral leishmaniasis in Iran, are identified in these areas. METHODS: In 2006-2007 individual wild-caught sandflies were characterized by both morphological features and sequence analysis of their mitochondrial genes (Cytochrome b). The analyses were based on a fragment of 494 bp at the 3' end of the Cyt b gene (Cyt b 3' fragment) and a fragment of 382 bp CB3 at the 5' end of the Cyt b gene (Cyt b 5' fragment). We also analysed the Cyt b Long fragment, which is located on the last 717 bp of the Cyt b gene, followed by 20 bp of intergenic spacer and the transfer RNA ser(TCN) gene. RESULTS: Twenty-seven P. halepensis and four P. major from Dohezar, Tonekabon, Mazanderan province and 8 P. tobbi from Packdasht, Tehran Province were identified by morphological and molecular characters. Cyt b 5' and Cyt b 3' fragment sequences were obtained from 15 and 9 flies, respectively. Cyt b long fragment sequences were obtained from 8 out of 27 P. halepensis. CONCLUSION: Parsimony analyses (using heuristic searches) of the DNA sequences of Cyt b always showed monophyletic clades of subgenera and each species did form a monophyletic group.

Phlebotomus caucasicus and Phlebotomus mongolensis (Diptera: Psychodidae): indistinguishable by the mitochondrial cytochrome b gene in Iran.

Diagnostic molecular markers for the females of Phlebotomus (Paraphlebotomus) caucasicus and P. mongolensis were sought by characterizing from individual Iranian specimens a gene fragment, namely mitochondrial cytochrome b, that had previously proven useful for the taxonomy of phlebotomine sandflies. Males of both species were used as reference material because their external genitalia provide the only diagnostic morphological characters. A phylogenetic analysis of the new sequences, and those previously reported for P. grimmi, found no support for recognizing more than one species (P. caucasicus s.l.) in Iran. Most of the genetic variation was geographical. An absence of lineage sorting was demonstrated, and it is proposed that any search for species-specific molecular markers for these three taxonomic species should be continued by applied biologists only if there is better evidence for associating any one of them with phenotypes important for understanding the transmission of Leishmania species in foci of zoonotic cutaneous leishmaniasis.

Cytokine gene expression in splenic CD4+ and CD8+ T cell subsets of genetically resistant and susceptible chickens infected with Marek's disease virus.

T cells from the spleens of B(19)/B(19) and B(21)/B(21) chickens infected with MDV JM-16 strain were fractionated by flow cytometry at 4, 10, 21 days post infection (d.p.i.). The expression of cytokine and viral genes (meq and glycoprotein B (gB)) was measured by real-time RT-PCR. It was determined that CD4(+) and CD8(+) T cells had both become infected with Marek's disease virus (MDV) in both chicken lines. There was significantly higher expression of meq in CD4(+) T cells compared to CD8(+) T cells at 10 and 21 d.p.i. Furthermore, at 10 and 21 d.p.i., there was a tendency for higher expression of meq in both T cell subsets of B(19) chickens compared to those of B(21) chickens. There were temporal changes in the expression of cytokines, interferon (IFN)-gamma, interleukin (IL)-18, IL-6, and IL-10, in various T cell subsets. Among these changes, there was an increase in IL-10 expression in both T cell subsets at different time points, especially in the susceptible line at 10 and 21 d.p.i. Our results indicate that cytokines could be differentially induced by MDV in CD4(+) and CD8(+) T cell subsets and that IL-10 may play a role in the modulation of immune response to MDV. However, an association between cytokine gene expression in T cell subsets and resistance or susceptibility to MD was not established.

Identification of Sand flies of the Subgenus Larroussius based on Molecular and Morphological Characters in North Western Iran.

BACKGROUND: THE ADULT FEMALE SAND FLIES (DIPTERA: Psychodidae) of the subgenus Larroussius are important vectors of Leishmania infantum (Kinetoplastida: Tripanosomatidae) in Meshkinshahr district, Northwest of Iran. Four Phlebotomus (Larroussius) species are present in this area, i.e. Phlebotomus (Larroussius) kandelakii, P. (La.) major, P. (La.) perfiliewi and P. (La.) tobbi. The objective of the present study was to identify and distinguish the females of P. perfiliewi, P. major and P. tobbi, in this district. METHODS: Adult sand flies were collected with sticky papers, CDC light traps, and aspirator in 2006. Individual sand flies of this four species from thirty different locations were characterized morphologically and by comparative DNA sequences analyses of a fragment of mitochondrial gene Cytochrome b (Cyt b) and nuclear gene Elongation Factor 1-alpha (EF-1α). PCR amplification was carried out for all three species P. major, P. perfiliewi and P. tobbi in the subgenus Larroussius. RESULTS: Phylogenetic analyses of P. major populations in this study displayed two different populations and genetic diversity. Spermathecal segment number, pharyngeal armature and other morphological characters of these three species were examined and found to present consistent interspecific differences. CONCLUSION: According to our findings, the phylogeny of Cyt b and EF-1α haplotypes confirms the relationships between P. major, P. tobbi and P. perfiliewi as already defined by their morphological similarities.

Host responses in the bursa of Fabricius of chickens infected with virulent Marek's disease virus.

The bursa of Fabricius serves as an important tissue in the process of Marek's disease virus (MDV) pathogenesis, since B cells of the bursa harbor the cytolytic phase of MDV replication cycle. In the present study, host responses associated with MDV infection in the bursa of Fabricius of chickens were investigated. The expression of MDV phosphoprotein (pp)38 antigen, MDV glycoprotein (gB) and MDV viral interleukin (vIL)-8 transcripts was at the highest at 4 days post-infection (d.p.i.) and then showed a declining trend. On the contrary, the expression of meq (MDV EcoRI Q) gene as well as the viral genome load increased gradually until day 14 post-infection. The changes in viral parameters were associated with significantly higher infiltration of macrophages and T cell subsets, particularly CD4+ T cells into the bursa of Fabricius. Of the genes examined, the expression of interferon (IFN)-alpha, IFN-gamma genes and inducible nitric oxide synthase (iNOS) was significantly up-regulated in response to MDV infection in the bursa of Fabricius. The results suggest a role for these cells and cytokines in MDV-induced responses in the bursa of Fabricius.

Nested PCRs and sequencing of nuclear ITS-rDNA fragments detect three Leishmania species of gerbils in sandflies from Iranian foci of zoonotic cutaneous leishmaniasis.

OBJECTIVE: To identify and understand the natural transmission cycles of Leishmania in Iranian sandflies. METHOD: Nested PCR protocols were developed to amplify two regions of the ribosomal RNA amplicon of Leishmania (ITS1-5.8S rRNA gene, and a microsatellite DNA region of ITS2), which were species-specific by DNA sequence or fragment size. RESULTS: The PCR assays detected in Iranian sandflies not only Leishmania major but also for the first time L. turanica and L. gerbilli sensu lato, two other parasites of the great gerbil. All three parasites were found in the northeast and centre of Iran, in two foci of rural Zoonotic Cutaneous Leishmaniasis (ZCL) caused by L. major. Fifty infections were detected in common sandfly species: at least six geographically differentiated haplotypes of L. major in four to five sandfly species; one strain of L. gerbilli s.l. in five to six sandfly species and one strain of L. turanica in one sandfly species. CONCLUSION: Past conclusions about the transmission cycles of L. major in Iran should be treated with caution. Careful molecular eco-epidemiological investigations are essential for modelling the roles of different sandfly species in maintaining and spreading ZCL foci. Even if non-pathogenic to humans, frequent inoculations of L. turanica by sandflies might alter the efficacy of vaccines against L. major. Phlebotomus papatasi is probably the key vector in many ZCL foci because of its abundance and high infection rates with both L. major and L. turanica.

Two Leishmania species circulating in the Kaleybar focus of infantile visceral leishmaniasis, northwest Iran: implications for deltamethrin dog collar intervention.

Leishmania infantum is the causative agent of infantile visceral leishmaniasis (IVL) in the Mediterranean Basin and, based on isoenzyme typing of a few isolates from patients and domestic dogs, this parasite was considered to predominate in the Kaleybar focus of IVL in northwest Iran. However, in the current investigation only one out of five sandfly infections was found to be L. infantum, based on PCR detection and sequencing of parasite internal transcribed spacer (ITS) rDNA infecting Phlebotomus perfiliewi transcaucasicus. The four other infections were of haplotypes of L. tropica, the causative agent of anthroponotic cutaneous leishmaniasis in the Middle East and a parasite occasionally detected in the viscera of dogs and patients in Iran and elsewhere. The widespread distribution of L. tropica in the Kaleybar focus suggests that this parasite is not a transient introduction. Kaleybar has been used for a deltamethrin dog collar intervention to reduce the biting rates of the vectors of L. infantum and this has significantly reduced the incidence of Leishmania infections both in children and the domestic dog, the usual reservoir host of IVL. The implications of finding L. tropica widespread in the heart of the intervention area are discussed. Extensive and intensive typing of natural Leishmania infections is a characteristic of epidemiological investigations in the Neotropics and the current report indicates that this will also be necessary in some regions of the Old World.

Transcriptional analysis of host responses to Marek's disease virus infection in genetically resistant and susceptible chickens.

Marek's disease virus (MDV) is a cell-associated oncogenic herpesvirus that targets B cells and T cells, inducing lymphoid tumours in chickens. Genetic resistance to Marek's disease (MD) is regulated in a polygenic fashion. In this study, we sought to compare the gene expression profiles following infection of birds that are genetically resistant or susceptible to MD (with the B21 and B19 haplotypes respectively at the MHC locus), including comparisons to uninfected controls. On days 4, 7, 14 and 21 post-infection, gene expression profiles in spleen tissue were obtained using a chicken immune-specific microarray. A number of genes showed significant (P or=2-fold in resistant compared with susceptible infected chickens. IgM and IgG were significantly induced on day 7 post-infection in susceptible chickens compared to resistant birds, whereas both of these genes were repressed in susceptible birds on day 14 post-infection. Overall, gene expression profiles in the chicken spleen observed after MDV infection were dependent on time and host genetic background. These gene expression profiles provide a platform for defining novel candidate genes for resistance or susceptibility to MD.

Host responses are induced in feathers of chickens infected with Marek's disease virus.

Control measures are ineffective in curtailing Marek's disease virus (MDV) infection and replication in the feather follicle epithelium (FFE). Therefore, vaccinated birds which subsequently become infected with MDV, shed the virulent virus although they remain protected against disease. The present study investigated host responses generated against MDV infection in the feather. We observed that in parallel with an increase in viral genome load and viral replication in the feather, there was a gradual but progressive increase in infiltration of CD4+ and CD8+ T cells into the feather pulp of MDV-infected chickens, starting on day 4 and peaking by day 10 post-infection. Concomitant with infiltration of T cells, the expression of interleukin (IL)-18, IL-6, interferon (IFN)-gamma and major histocompatibility complex class I genes was significantly enhanced in the feather pulp of MDV-infected chickens. The finding that host responses are generated in the feather may be exploited for developing strategies to control MDV infection in the FFE, thus preventing horizontal virus transmission.