Receptors for recombinant feline interferon-omega in hemocytes of the Japanese pearl oyster Pinctada fucata martensii

In a previous study we determined that administration of recombinant feline interferon-omega (rFeIFN-omega) could protect Japanese pearl oysters Pinctada fucata martensii from akoya-virus infection. Our results suggested that rFeIFN-omega enhanced the potential of agranulocytes to phagocytize necrotic cells and to produce collagen fibers that repair the lesions caused by the akoya-virus. In the present study, using an indirect immunofluorescence technique with an anti-rFeIFN-omega rabbit serum, we examined whether hemocytes bear receptors that bind rFeIFN-omega. rFeIFN-omega receptors were present on agranulocytes and bound rFeIFN-omega, and appeared as green fluorescent spots in the cytoplasm under a fluorescent microscope. Around 56% of agranulocytes in Japanese pearl oysters bore the rFeIFN-omega receptors.     

Maternally-derived antibodies in pups and protection from canine parvovirus infection

The interaction between maternally-derived antibodies (MDA) and canine parvovirus (CPV) infection was evaluated in five groups of pups with a wide range of haemagglutination inhibiting (HI) titres of MDA (from < 10 to 320). The pups were inoculated with a field CPV strain and monitored daily to evaluate their clinical condition and viral shedding in the faeces. Serum samples were collected weekly to evaluate antibody response. Clinical signs were observed in dogs with HI titres up to 80. Active CPV replication was demonstrated in dogs with HI titres up to 160, although slightly delayed, at lower titres and for a shorter period compared to seronegative dogs. The successful infection of dogs with HI titres of 80 and 160 was also confirmed by seroconversion, evaluated at day 14 postinfection. These findings are in contrast with the MDA titre (HI > or = 80) usually considered fully protective for CPV infection, and suggest the need for revision of current vaccination programmes for pups.     

Effect of double infection of cowpox virus-infected cells with paramyxovirus (Sendai virus) on formation of cowpox virus-specific cell surface antigen.

The formation of cowpox virus-specific cell surface antigen (CPV S-ag) was significantly enhanced by double infection with HVJ (Sendai virus). Simultaneous double infection, superinfection with HVJ and superinfection with CPV of cells persistently infected with HVJ similarly enhanced the formation of CPV S-ag, while pre-infection with HVJ was ineffective. To be effective, cells must be infected at a m.o.i. of greater than or equal to 1.0 and HVJ gene functions had to be expressed. The HVJ-infected cell extracts had an ability to accelerate uncoating (or degradation) of CPV, causing an early increase and a subsequent decrease in the infectivity of CPV. This activity reached a maximum 4--6 hr after HVJ infection, the increase paralleling enhancement of the total activity of several cellular enzymes. Addition of puromycin abolished the increase of these activities and the formation of CPV S-ag. Thus, the double infection with HVJ of CPV-infected cells induces an enhancement of CPV S-ag formation presumably as a consequence of activation of cellular enzymes which in turn accelerates uncoating of CPV.     

Clinical trial results on the use of a recombinant feline interferon-omega to protect Japanese pearl oysters Pinctada fucata martensii from akoya-virus infection

Japanese pearl oysters (akoya oyster: Pinctada fucata martensii) are currently suffering mass mortalities from akoya-virus infection. In the present study, akoya oysters were injected with an anti-viral, recombinant feline interferon-omega) (rFeIFN-omega) in an attempt to confer resistance to this virus. In infectivity experiments, oysters were twice injected with rFeIFN-omega at 1 mega unit kg(-1) of the meat weight. They were challenged with a single inoculation of cultured akoya-virus and held for 20 to 30 d at 25 degrees C. Control oysters received only the viral challenge without rFeIFN-omega administration. In prophylactic experiments, oysters that were given the akoya-virus on Days 1 to 5 after rFeIFN-omega administration showed lower mortalities. Furthermore, the survivors had fewer muscular lesions resulting from the virus infection than the controls. In treatment experiments, the virus was inoculated on Days 1 to 3 before rFeIFN-omega administration. None of the treated oysters died within a 30 d experimental period. Survivors displayed repaired lesions with fibrous tissues that were produced by enhanced agranulocytes in the body musculature. Moreover, rFeIFN-omega) was not toxic to akoya oysters. Thus, rFeIFN-omega administration is efficacious in preventing mortality of akoya oysters with akoya-virus infection.     

Development and evaluation of loop-mediated isothermal amplification assay for rapid and sensitive detection of canine parvovirus DNA directly in faecal specimens

Aims: To develop a specific and highly sensitive loop-mediated isothermal amplification (LAMP) technique for the rapid detection of canine parvovirus (CPV) DNA directly in suspected faecal samples of dogs by employing a simple method of template preparation. Methods and Results: LAMP reaction was developed by designing two sets of outer and inner primers, which target a total of six distinct regions on VP2 gene of CPV. The template DNA was prepared by a simple boiling and chilling method. Of the 140 faecal samples screened by the developed LAMP and the conventional PCR assays, 104 samples (74·28%) were found positive by LAMP, whereas 81 samples (57·85%) were found positive by PCR. The specificity of the LAMP assay was tested by cross-examination of common pathogens of dogs and further confirmed by sequencing. The detection limit of the LAMP was 0·0001 TCID(50) ml(-1) , whereas the detection limit of the PCR was 1000 TCID(50) ml(-1) . Conclusions: The developed LAMP assay detects CPV DNA in faecal specimens directly within an hour by following a simple and rapid boiling and chilling method of template preparation. The result also shows that the developed LAMP assay is specific and highly sensitive in detecting CPV. Significance and Impact of the Study: The result indicates the potential usefulness of LAMP which is a simple, rapid, specific, highly sensitive and cost-effective field-based method for direct detection of CPV from the suspected faecal samples of dogs.     

Characterization of Actinobacillus actinomycetemcomitans Hemolysin

Twenty out of 33 Actinobacillus actinomycetemcomitans strains formed hemolytic colonies on horse blood agar plates under anaerobic conditions. The hemolytic activity found in A. actinomycetemcomitans strain 137HE was examined. This activity was detected in the late exponential to early stationary phases of growth. Human erythrocytes were the most susceptible, followed by rabbit, sheep, horse and swine red blood cells. The majority of activity was detected in the cell-associated vesicle fraction. Zwitterionic detergent 3-[(3-cholamidopropyl)-dimethyl-ammonio]-1-propanesulfonate (CHAPS) extract from whole cells was semipurified by ammonium sulfate precipitation, preparative isoelectric focusing (IEF) and gel-filtration chromatography to yield a major band on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) with a molecular mass of 12 kDa. Heating at 80 C for 30 min and treatment with proteinase K or trypsin resulted in complete disappearance of the hemolytic activity. Sulphydryl reagents enhanced activity and small amounts of cholesterol inhibited it. In summary, we demonstrated the presence of hemolysin in A. actinomycetemcomitans, and examined and characterized it.     

Canine and feline host ranges of canine parvovirus and feline panleukopenia virus: distinct host cell tropisms of each virus in vitro and in vivo.

Canine parvovirus (CPV) emerged as an apparently new virus during the mid-1970s. The origin of CPV is unknown, but a variation from feline panleukopenia virus (FPV) or another closely related parvovirus is suspected. Here we examine the in vitro and in vivo canine and feline host ranges of CPV and FPV. Examination of three canine and six feline cell lines and mitogen-stimulated canine and feline peripheral blood lymphocytes revealed that CPV replicates in both canine and feline cells, whereas FPV replicates efficiently only in feline cells. The in vivo host ranges were unexpectedly complex and distinct from the in vitro host ranges. Inoculation of dogs with FPV revealed efficient replication in the thymus and, to some degree, in the bone marrow, as shown by virus isolation, viral DNA recovery, and Southern blotting and by strand-specific in situ hybridization. FPV replication could not be demonstrated in mesenteric lymph nodes or in the small intestine, which are important target tissues in CPV infection. Although CPV replicated well in all the feline cells tested in vitro, it did not replicate in any tissue of cats after intramuscular or intravenous inoculation. These results indicate that these viruses have complex and overlapping host ranges and that distinct tissue tropisms exist in the homologous and heterologous hosts.     

The natural host range shift and subsequent evolution of canine parvovirus resulted from virus-specific binding to the canine transferrin receptor

Canine parvovirus (CPV) is a host range variant of a feline virus that acquired the ability to infect dogs through changes in its capsid protein. Canine and feline viruses both use the feline transferrin receptor (TfR) to infect feline cells, and here we show that CPV infects canine cells through its ability to specifically bind the canine TfR. Receptor binding on host cells at 37 degrees C only partially correlated with the host ranges of the viruses, and an intermediate virus strain (CPV type 2) bound to higher levels on cells than did either the feline panleukopenia virus or a later strain of CPV. During the process of adaptation to dogs the later variant strain of CPV gained the ability to more efficiently use the canine TfR for infection and also showed reduced binding to feline and canine cells compared to CPV type 2. Differences on the top and the side of the threefold spike of the capsid surface controlled specific TfR binding and the efficiency of binding to feline and canine cells, and these differences also determined the cell infection properties of the viruses.     

Effect of maternally derived antibody levels on antibody responses to canine parvovirus, canine distemper virus and infectious canine hepatitis virus after vaccinations in beagle puppies

Antibody titers against canine parvovirus (CPV), canine distemper virus (CDV) and infectious canine hepatitis virus (ICHV) in serum were measured in 6 beagle dams and their 38 puppies bred in our colony, in order to clarify the effects of maternally derived antibodies to antibody responses against the viruses after vaccinations in puppies. Correlation coefficient on antibody titers between puppies and dams were CPV: r = 0. 7935, CDV: r = 0.8194 and ICHV: r = 0.8105. Mean maternal antibody positive rates in 7-day-old puppies from their dams were CPV: 67%, CDV: 46% and ICHV: 45%. Mean half-lives of the maternal antibodies in puppies were estimated to be CPV: 13.5 days, CDV: 15.1 days and ICHV: 15.4 days. The antibody response against CPV vaccination in puppies was mainly observed in dogs being titers of less 1:5 and positivity was 39% (15/38 puppies) after 1st vaccination at 42 days after birth, and 82% (31/38 puppies) after 2nd vaccination at 70 days. That against CDV vaccination (at 56 days after birth) was seen highly in dogs being titers of less 1:10 and positivity was 53% (20/38). Also that against ICHV vaccination (at 56 days after birth) was seen frequently in dogs being titers of less 20 holds and the rate was 87% (33/38). From these results, it was estimated that the age when high antibody response against each vaccination could be expected in puppies might be CPV: between 40 and 69 days, CDV: between 32 and 92 days and ICHV: between 31 and 52 days, respectively.     

Metabolism of GS-7340, a novel phenyl monophosphoramidate intracellular prodrug of PMPA, in blood

PMPA, an acyclic nucleoside phosphonate analog, is a potent inhibitor of HIV. In the cells, PMPA is efficiently phosphorylated by intracellular kinases to produce PMPApp, the pharmacologically active metabolite. Despite its demonstrated antiviral potency, PMPA has limited cell permeability presumably resulting from the presence of two negative charges on the phosphonyl group. To enhance intracellular concentrations of PMPA, we developed a prodrug, selectively metabolized inside cells. GS-7340 (9-[(R)-2-[[[[(S)-1-(isopropoxycarbonyl)ethyl] amino] phenoxy-phosphinyl]-methoxy] propyl] adenine) is a prodrug which is orally bioavailable in dogs as the intact prodrug and has demonstrated anti-HIV activity in cell culture of over 1000-fold greater than that of PMPA. The metabolism of PMPA in peripheral blood mononuclear cells (PBMC), red blood cells (RBC) and plasma was examined following exposure of whole blood to PMPA or GS-7340 at concentrations similar to ones observed systemically following oral administration in dogs. Following 1 hour incubation with whole blood, GS-7340 was stable in plasma, produced high levels of PMPA and its phosphorylated metabolites in PBMC but not in RBC. No intact prodrug was present in PBMC. The only other species present in PBMC was monoalaninyl PMPA. The levels of PMPA and the phosphorylated metabolites were over 20 times greater than those after incubation with PMPA. The dog and human blood data were similar. The intracellular levels of PMPA and PMPApp were roughly proportional to GS-7340 over a 10-fold concentration range indicating a lack of saturability of uptake and phosphorylation. Since PMPApp is the species responsible for antiviral activity of PMPA, the high intracellular levels of PMPApp should be an important indicator of greater clinical efficacy of GS-7340.     

犬细小病毒单克隆抗体的制备及其与免疫血清在血凝抑制中的比较

将用犬细小病毒免疫的ＢＡＬＢ／ｃ小鼠的脾细胞与Ｓｐ２／０骨髓瘤细胞在聚乙二醇作用下融合,经筛选、克隆,得到６株稳定分泌犬细小病毒单克隆抗体的杂交瘤。用杂交瘤腹水作血凝抑制试验,检测分别含有犬细小病毒、猫泛白细胞减少症病毒和水貂肠炎病毒的标本,及ＣＰＶ感染犬粪便标本,并与免疫血清作对比。结果表明,用单克隆抗体作血凝抑制试验,比用免疫血清作具有特异性高、操作简便省时等优点,而二者敏感性一致。     

Interleukin-12 augments a Th1-type immune response manifested as lymphocyte proliferation and interferon gamma production in Leishmania infantum-infected dogs

The dog is the major reservoir for human visceral leishmaniasis caused by Leishmania infantum. Interleukin-12 is considered to have an essential role in the development of both innate and adaptive immunity to Leishmania spp. and other intracellular pathogens. This study focused on the influence of IL-12 in experimental and natural canine visceral leishmaniasis. Responses of peripheral blood mononuclear cells to IL-12, interleukin-10 and Leishmania soluble antigen were evaluated in L. infantum experimentally infected oligosymptomatic beagles, uninfected beagles, naturally infected polysymptomatic dogs, and their matched uninfected controls. Leishmania soluble antigen induced strong peripheral blood mononuclear cells proliferation both in experimentally infected dogs (median stimulation index [SI]=15.01), and in naturally infected dogs (SI=8.86), but not by cells from the control groups. IL-12 addition further enhanced cell proliferation in naturally (SI=14.95), but not in experimentally infected animals. Peripheral blood mononuclear cells from experimentally infected dogs were able to produce significant amounts of IFN-gamma (3.39 ng/ml) upon LSA stimulation, but no such production was detected in cells from naturally infected or control animals. Interestingly, addition of IL-12 reversed the inhibitory effect of LSA on IFN-gamma production by cells from polysymptomatic naturally infected dogs and the uninfected beagles (4.84 and 7.45 ng/ml, respectively), and further increased IFN-gamma production by peripheral blood mononuclear cells from experimentally infected oligosymptomatic dogs (29.28 ng/ml). IFN-gamma mRNA expression correlated well with IFN-gamma production. Addition of IL-10 to Leishmania soluble antigen stimulated peripheral blood mononuclear cells inhibited proliferation and IFN-gamma production in experimentally infected dogs. Thus, the ability of IL-12 to augment IFN-gamma production by peripheral blood mononuclear cells from dogs with experimental or natural symptomatic canine visceral leishmaniasis makes it a good candidate for cytokine therapy in dogs that are refractory to current therapy.     

Self-assembly of virus-like particles of canine parvovirus capsid protein expressed from Escherichia coli and application as virus-like particle vaccine

Canine parvovirus disease is an acute infectious disease caused by canine parvovirus (CPV). Current commercial vaccines are mainly attenuated and inactivated; as such, problems concerning safety may occur. To resolve this problem, researchers developed virus-like particles (VLPs) as biological nanoparticles resembling natural virions and showing high bio-safety. This property allows the use of VLPs for vaccine development and mechanism studies of viral infections. Tissue-specific drug delivery also employs VLPs as biological nanomaterials. Therefore, VLPs derived from CPV have a great potential in medicine and diagnostics. In this study, small ubiquitin-like modifier (SUMO) fusion motif was utilized to express a whole, naturalVP2 protein of CPV in Escherichia coli. After the cleavage of the fusion motif, the CPV VP2 protein has self-assembled into VLPs. The VLPs had a size and shape that resembled the authentic virus capsid. However, the self-assembly efficiency of VLPs can be affected by different pH levels and ionic strengths. The mice vaccinated subcutaneously with CPV VLPs and CPV-specific immune responses were compared with those immunized with the natural virus. This result showed that VLPs can effectively induce anti-CPV specific antibody and lymphocyte proliferation as a whole virus. This result further suggested that the antigen epitope of CPV was correctly present on VLPs, thereby showing the potential application of a VLP-based CPV vaccine.     

Patterns of Exposure of Iberian Wolves (<Emphasis Type="Italic">Canis lupus</Emphasis>) to Canine Viruses in Human-Dominated Landscapes

Wildlife inhabiting human-dominated landscapes is at risk of pathogen spill-over from domestic species. With the aim of gaining knowledge in the dynamics of viral infections in Iberian wolves (Canis lupus) living in anthropized landscapes of northern Spain, we analysed between 2010 and 2013 the samples of 54 wolves by serology and polymerase chain reaction (PCR) for exposure to four pathogenic canine viruses: canine distemper virus (CDV), canine parvovirus-2 (CPV), canine adenovirus 1 and 2 (CAV-1 and CAV-2) and canine herpesvirus. Overall, 76% of the studied wolves presented evidence of exposure to CPV (96% by HI, 66% by PCR) and 75% to CAV (75% by virus neutralization (VN), 76% by PCR, of which 70% CAV-1 and 6% CAV-2). This represents the first detection of CAV-2 infection in a wild carnivore. CPV/CAV-1 co-infection occurred in 51% of the wolves. The probability of wolf exposure to CPV was positively and significantly correlated with farm density in a buffer zone around the place where the wolf was found, indicating that rural dogs might be the origin of CPV infecting wolves. CPV and CAV-1 appear to be enzootic in the Iberian wolf population, which is supported by the absence of seasonal and inter-annual variations in the proportion of positive samples detected. However, while CPV may depend on periodical introductions by dogs, CAV-1 may be maintained within the wolf population. All wolves were negative for exposure to CDV (by VN and PCR) and CHV (by PCR). The absence of acquired immunity against CDV in this population may predispose it to an elevated rate of mortality in the event of a distemper spill-over via dogs.     

Modulation of soluble guanylate cyclase activity by phosphorylation

The levels of the cGMP in smooth muscle of the gut reflect continued synthesis by soluble guanylate cyclase (GC) and breakdown by phosphodiesterase 5 (PDE5). Soluble GC is a haem-containing, heterodimeric protein consisting alpha- and beta-subunits: each subunit has N-terminal regulatory domain and a C-terminal catalytic domain. The haem moiety acts as an intracellular receptor for nitric oxide (NO) and determines the ability of NO to activate the enzyme and generate cGMP. In the present study the mechanism by which protein kinases regulate soluble GC in gastric smooth muscle was examined. Sodium nitroprusside (SNP) acting as a NO donor stimulated soluble GC activity and increased cGMP levels. SNP induced soluble GC phosphorylation in a concentration-dependent fashion. SNP-induced soluble GC phosphorylation was abolished by the selective cGMP-dependent protein kinase (PKG) inhibitors, Rp-cGMPS and KT-5823. In contrast, SNP-stimulated soluble GC activity and cGMP levels were significantly enhanced by Rp-cGMPS and KT-5823. Phosphorylation and inhibition of soluble GC were PKG specific, as selective activator of cAMP-dependent protein kinase, Sp-5, 6-DCl-cBiMPS had no effect on SNP-induced soluble GC phosphorylation and activity. The ability of PKG to stimulate soluble GC phosphorylation was demonstrated in vitro by back phosphorylation technique. Addition of purified phosphatase 1 inhibited soluble GC phosphorylation in vitro, and inhibition was reversed by a high concentration (10 microM) of okadaic acid. In gastric smooth muscle cells, inhibition of phosphatase activity by okadaic acid increased soluble GC phosphorylation in a concentration-dependent fashion. The increase in soluble GC phosphorylation inhibited SNP-stimulated soluble GC activity and cGMP formation. The results implied the feedback inhibition of soluble GC activity by PKG-dependent phosphorylation impeded further formation of cGMP.     

Immunostimulatory properties of CpG-oligonucleotides are enhanced by the use of protamine nanoparticles

The aim of this paper was to investigate if the immunostimulatory effects of CpG-oligonucleotides (CpG-ODN) can be enhanced by the use of biodegradable protamine nanoparticles (proticles). We analyzed size, surface charge, and morphology of protamine nanoparticles containing CpG-ODN with photon correlation spectroscopy and transmission electron microscopy. Immunostimulatory effects of these nanoparticles on B cells, plasmacytoid dendritic cells (PDC), peripheral blood mononuclear cells, and whole blood were studied. Cytokine production, activation of the cells in terms of upregulation of surface molecules and uptake of nanoparticles were examined. We found that the use of protamine nanoparticles significantly increased (20-fold) CpG-ODN mediated interferon (IFN)-alpha production of PDC. ODN uptake in PDC was only marginally enhanced. CpG-ODN mediated IP-10 production in whole blood was strongly enhanced by the use of nanoparticles. Apart from a slight increase in CpG-ODN-induced interleukin (IL)-6 production in B cells, other parameters like the CpG-mediated activation of B cells and PDC as well as tumor necrosis factor (TNF)-alpha production of PDC remained largely unchanged. The use of control ODN indicated that the protamine nanoparticles themselves have no immunostimulatory properties. These results strongly support the use of particulate delivery systems like biodegradable protamine nanoparticles for the development of CpG-ODN-based therapeutics.     

METABOLISM OF GS-7340, A NOVEL PHENYL MONOPHOSPHORAMIDATE INTRACELLULAR PRODRUG OF PMPA,IN BLOOD

PMPA, an acyclic nucleoside phosphonate analog, is a potent inhibitor of HIV. In the cells, PMPA is efficiently phosphorylated by intracellular kinases to produce PMPApp, the pharmacologically active metabolite. Despite its demonstrated antiviral potency, PMPA has limited cell permeability presumably resulting from the presence of two negative charges on the phosphonyl group. To enhance intracellular concentrations of PMPA, we developed a prodrug, selectively metabolized inside cells. GS-7340 (9-[R)-2-[[[[S)-1-(isopropoxycarbonyl)ethyl] amino] phenoxy-phosphinyl]-methoxy] propyl] adenine) is a prodrug which is orally bioavailable in dogs as the intact prodrug and has demonstrated anti-HIV activity in cell culture of over 1000-fold greater than that of PMPA. The metabolism of PMPA in peripheral blood mononuclear cells (PBMC), red blood cells (RBC) and plasma was examined following exposure of whole blood to PMPA or GS-7340 at concentrations similar to ones observed systemically following oral administration in dogs. Following 1 hour incubation with whole blood, GS-7340 was stable in plasma, produced high levels of PMPA and its phosphorylated metabolites in PBMC but not in RBC. No intact prodrug was present in PBMC. The only other species present in PBMC was monoalaninyl PMPA. The levels of PMPA and the phosphorylated metabolites were over 20 times greater than those after incubation with PMPA. The dog and human blood data were similar. The intracellular levels of PMPA and PMPApp were roughly proportional to GS-7340 over a 10-fold concentration range indicating a lack of saturability of uptake and phosphorylation. Since PMPApp is the species responsible for antiviral activity of PMPA, the high intracellular levels of PMPApp should be an important indicator of greater clinical efficacy of GS-7340.     

Haemolytic and phospholipase C (PLC) activities of Rhodococcus equi

Rhodococcus equi, an intracellular organism causing pneumonia and lung abscesses in foals, is generally thought to be non-haemolytic. In the present study, however, 13 of 14 representative isolates were found to be haemolytic when tested on agar media containing washed red blood cells rather than whole blood. Red cells of rabbits, dogs, horses and man were more sensitive to lysis than were those of ruminants. Two new enzymatic activities of the species were defined: a lecithinase and a phosphatidylinositol-specific phospholipase C (PI-PLC). As judged from tests for trypsin, temperature and ethanol sensitivity, the haemolytic activity was primarily dependent on PI-PLC though the participation of lecithinase seemed probable. The haemolytic activity of growing strains, but not of cell-free preparations, was partially inhibited by lecithin but enhanced by cholesterol; however, cholesterol oxidase (CO) activity, known to mediate cooperative lysis of RBC sensitized with sphingomyelin-specific phospholipases C or D of some other species, did not contribute to the direct haemolysis caused by R. equi as demonstrated here.     

Comparative methodology for the detection and differentiation of circulating microfilariae of Dirofilaria immitis in the dog

The sensitivities of the Knott's test (four 20-microl sediment aliquots), quantitative buffy coat capillary tube method (QBC tube, 111 microl of whole blood) and direct blood smear (DBS, 20 microl of whole blood) were evaluated for the detection of microfilaraemia in dogs. Undiluted whole blood samples taken from 70 Dirofilaria immitis antigen-positive dogs and 10 serially diluted microfilaraemic blood samples at concentrations of 400, 200, 100, 50, 25 and 12 microfilariae (mff) ml(-1) were examined. For filarial speciation, the buffy coat of QBC tubes was mixed with one drop of methylene blue-formalin solution and examined as a direct smear. In 52/70 microfilaraemic blood samples, the number of mff ranged from 12 to 321987 ml(-1) (median: 3199 ml(-1)). The diagnostic sensitivity of the Knott's test, QBC tube method and DBS in undiluted blood samples attained the 100%, 98% and 92.3% levels, respectively. Eighteen dogs tested amicrofilaraemic by all three methods. At concentrations of 400 mff ml(-1), a 100% sensitivity was found by all three methods, while at 200 mff ml(-1) the Knott's test, QBC tube and DBS were 100%, 100% and 90% sensitive, respectively. The relevant figures at 100 mff ml(-1) were 100%, 100% and 80%, at 50 mff ml(-1) 100%, 100% and 50%, at 25 mff ml(-1) 100%, 100% and 10% and at 12 mff ml(-1) 80%, 50% and 10%. At 50 and 25 mff ml(-1), the DBS was less sensitive compared to the other two methods, while at 12 mff ml(-1), only to the Knott's test. A significant correlation was found between the QBC tube method and Knott's test regarding mff speciation. Therefore, the QBC method may be considered a reliable alternative to the Knott's test for both the detection and speciation of mff in the dog.     

Inhibition of murine lymphokine-activated killer (LAK) cell activity by adherent cells

The effects of adherent cell depletion, indomethacin, and prostaglandin E2 (PGE2) on murine LAK cell activity were investigated. Removal of plastic adherent cells from splenocyte suspensions either prior to 5-day culture with 1000 U/ml of recombinant human IL-2 (rIL-2) or prior to assay resulted in an enhanced LAK cell cytotoxicity compared to that of whole spleen cell suspensions. Indomethacin enhanced LAK cell cytotoxicity of whole splenocyte suspensions if present during the culture period, but had no effect on whole splenocyte or adherent cell-depleted cell suspensions if added just prior to assay. PGE2 suppressed LAK cell activity of nonadherent splenocyte but not whole splenocyte suspensions when present during the culture period. In vivo treatment of mice with indomethacin enhanced cytotoxicity directed toward both LAK sensitive, natural killer (NK) resistant (P-815) and LAK, NK sensitive (YAC-1) tumor cell targets. Splenocytes from indomethacin-treated mice cultured with additional indomethacin and rIL-2 exhibited highest LAK cell activity. The results from this study indicate that LAK cells are regulated by adherent cells which suppress LAK cell activity. This suppression can be reversed both in vitro and in vivo by indomethacin. This study has important implications for the possible clinical use of indomethacin in the potentiation of in vivo and in vitro LAK cell activity for immunotherapeutic protocols.