Quantitative Analysis of Striped Coat-Color Patterns in Large White→Duroc Chimeric Pigs With Special Reference to the Genetic Control Mechanisms of the Dominant Black-Eyed White Phenotype

Coat colors of four chimeric pigs produced by the microinjection of dissociated blastomeres of (Landrace × Large White) blastocysts to the blastocyst cavity of (Duroc × Duroc) blastocysts (Kashiwazaki et al., 1992) exhibited characteristic horizontal stripe-patterns. We carried out quantitative analysis of those patterns in order to derive information concerning the genetic regulatory mechanisms of the dominant black-eyed white phenotypes in the pig. In the four chimeras, the theoretical mean widths of the single-clone stripe calculated from the estimated widths of minimal recognizable stripe (MRS) (Tachi, 1988) were 2.1 ± 0.1, 2.23 ± 0.15,1.89 ± 0.06, and 1.93 ± 0.28 cm respectively. The estimated number of single-clone stripes in the thoracico-lumbar region of those animals were 42.3, 40.7, 46.3, 44.2, and about twice the mean number of vertebrae in the same region (Duroc, 20 or 21; Large White, 21 or 22). Furthermore, the mean length of thoracico-lumbar vertebrate in two of the chimeric pigs, as measured on X-ray radiographs, was approximately twice the mean single-clone stripe width. It was concluded that the stripe-patterns of the chimeric pigs probably represented the dermatome patterns of epidermis; and in the pig, a single somite was likely to be derived from the clones of two primordial cells, as originally proposed by Gearhart & Mintz (1972) in the mouse. It was suggested, furthermore, that in the Large White→Duroc chimeric pigs, melanocytes that migrated into the region of skin formed by a Large White dermatome could not survive, thus creating a clearly demarcated white stripe. Possible involvement of KL or c-kit in the dominant black-eyed white phenotype of the pig is discussed.     

Analysis of coat-color patterns in aggregation chimeras between BALB/cA and C3H/HeN mice with special reference to migratory patterns and clone number of epidermal melanoblasts

Chimeras provide unique opportunities to study interactions between the phenotypically similar but genotypically allogeneic cell populations during embryogenesis in vivo. From the quantitative analysis of coat-color patterns in C3H/HeN----BALB/cA chimeras, a model was proposed stating that the aggregability of the C3H/HeN-derived melanoblasts in the chimeras was inversely related to the ratio between the mean free path of the epidermal melanoblasts in the normal C3H/HeN mouse and that in the chimeras. As a corollary, the possibility was suggested that during the migration of melanoblasts, mechanisms identical with or similar to contact inhibition of movement might operate after collision between the isogeneic, but not between the allogeneic melanoblasts. With regard to the number of melanoblast clones in the trunk region of the mouse, the present series of analyses yielded the value of 24-28 arranged unilaterally; the value closely approximated the number of the somites in that region and provided further support for the proposition made earlier by Tachi [Dev Genet 9: 121-154, 1988; "Development of Preimplantation Embryos and Their Environment." New York: Alan R. Liss, Inc., 1989, pp 263-274].     

A Requirement for FGF Signalling in the Formation of Primitive Streak-Like Intermediates from Primitive Ectoderm in Culture

Background

Embryonic stem (ES) cells hold considerable promise as a source of cells with therapeutic potential, including cells that can be used for drug screening and in cell replacement therapies. Differentiation of ES cells into the somatic lineages is a regulated process; before the promise of these cells can be realised robust and rational methods for directing differentiation into normal, functional and safe cells need to be developed. Previous in vivo studies have implicated fibroblast growth factor (FGF) signalling in lineage specification from pluripotent cells. Although FGF signalling has been suggested as essential for specification of mesoderm and endoderm in vivo and in culture, the exact role of this pathway remains unclear.

Methodology/Principal Findings

Using a culture model based on early primitive ectoderm-like (EPL) cells we have investigated the role of FGF signalling in the specification of mesoderm. We were unable to demonstrate any mesoderm inductive capability associated with FGF1, 4 or 8 signalling, even when the factors were present at high concentrations, nor any enhancement in mesoderm formation induced by exogenous BMP4. Furthermore, there was no evidence of alteration of mesoderm sub-type formed with addition of FGF1, 4 or 8. Inhibition of endogenous FGF signalling, however, prevented mesoderm and favoured neural differentiation, suggesting FGF signalling was required but not sufficient for the differentiation of primitive ectoderm into primitive streak-like intermediates. The maintenance of ES cell/early epiblast pluripotent marker expression was also observed in cultures when FGF signalling was inhibited.

Conclusions/Significance

FGF signalling has been shown to be required for the differentiation of primitive ectoderm to neurectoderm. This, coupled with our observations, suggest FGF signalling is required for differentiation of the primitive ectoderm into the germ lineages at gastrulation.     

Generation of C57BL/6 knockout mice using C3H x BALB/c blastocysts

The International Mouse Knockout Consortium aims to generate a knockout mouse for every single gene on a C57BL/6 background. Our ability to generate such mice is hampered by the poor economics of producing blastocysts to achieve germline transmission of C57BL/6 embryonic stem (ES) cells. We demonstrate superior utility of (C3H x BALB/c)F1 blastocysts compared with BALB/c blastocysts, with blastocyst numbers and germline transmission from subsequent chimeras at a rate 2- to 3-fold higher than that produced with BALB/c blastocysts.     

Adrenocortical function: corticosterone levels in female BALB/c and C3H mice under various conditions.

A diurnal rhythmicity in plasma corticosterone levels was demonstrated in female BALB/cCrgl and C3H/Crgl mice, with and without mammary tumor virus. Removal of the adrenals followed by metopirone treatment reduced circulating corticoid to non-detectable levels in C3H but not in BALB/c mice. Dexamethasone strains. Neonatal exposure to exogenous hormones failed to cause any obvious change in corticoid levels. Bilateral ovariectomy of these neonatally treated mice at 40 days of age resulted in a subsequent lowering of plasma corticoid levels when compared with intact animals.     

Lack of Adaptation of Chimeric GB Virus B/Hepatitis C Virus in the Marmoset Model: Possible Effects of Bottleneck

Approximately 3% of the world population is chronically infected with hepatitis C virus (HCV). GB virus B (GBV-B), a surrogate model for HCV, causes hepatitis in tamarins and is the virus phylogenetically most closely related to HCV. Previously we described a chimeric GBV-B containing an HCV insert from the 5′ noncoding region (NCR) that was adapted for efficient replication in tamarins (Saguinus species). We have also demonstrated that wild-type (WT) GBV-B rapidly adapts for efficient replication in a closely related species, the common marmoset (Callithrix jacchus). Here, we demonstrate that the chimeric virus failed to adapt during serial passage in marmosets. The chimeric virus was passaged four times through 24 marmosets. During passage, two marmoset phenotypes were observed: susceptible and partially resistant. Although appearing to adapt in a resistant animal during a prolonged and gradual increase in viremia, the chimeric GBV-B failed to replicate efficiently upon passage to a naïve marmoset. The resistance was specific to the chimeric virus, as the chimeric virus-resistant animals were susceptible to marmoset-adapted WT virus during rechallenge studies. Three isolates of the chimeric virus were sequenced, and 20 nucleotide changes were observed, including eight amino acid changes. Three unique changes were observed in the 5′ NCR chimeric insert, an area that is highly conserved in HCV. We speculate that the failure of the chimeric virus to adapt in marmosets might be due to a bottleneck that occurs at the time of infection of resistant animals, which may lead to a loss of fitness upon serial passage.Worldwide, approximately 170 million people are chronically infected with hepatitis C virus (HCV). The current approved therapy involves the combination of pegylated alpha interferon and ribavirin and has response rates for sustained viral clearance of 42% and 82% for genotypes 1 and 2/3, respectively (15, 29). However, a significant proportion of the population still develops serious disease as a consequence of HCV infection. HCV infection is the leading cause for liver transplantation in the United States (1, 50), and liver cancer due to HCV infection is one of the most rapidly increasing types of cancer in the United States (20).GB virus B (GBV-B) is a hepatotropic virus that causes hepatitis in tamarins and is the virus phylogenetically most closely related to HCV (33, 36, 44), and as such, GBV-B represents an important small-primate surrogate model for HCV infections. The history of the GB agent is complex and originates with the inoculation of tamarins with serum obtained from a surgeon with hepatitis (for a review, see reference 3); however there is little doubt that GBV-B is a tamarin virus, despite the fact that it has never been isolated from tamarins a second time. GBV-B has a very narrow host range for tamarins, marmosets, and other closely related New World monkeys (6, 23, 54). The GBV-B model overcomes a number of limitations encountered when working with HCV (3, 22). Due to the limited availability of tamarins, our lab and others (5, 16, 21, 23) initiated GBV-B studies in common marmosets (Callithrix jacchus), a small New World primate closely related to the tamarin (Saguinus sp.). The marmoset and tamarin represent less expensive, more readily available, and smaller animal models than the chimpanzee. While replication in marmosets is typically higher than what is observed in HCV-infected chimpanzees, reproducible infection profiles require some adaptation to this host (5, 54). Although robust replication of HCV in vitro is now possible using specific adapted strains of HCV (derivatives of the JFH1 and H77-S) and the Huh-7.5 cell line (4, 27, 52, 55, 56), the GBV-B primary hepatocyte culture system (2) may be more suitable for some studies, especially those involving specific aspects of the innate immune response and other viral host interactions.The organization of the GBV-B genome is very similar to that of HCV and the GBV-B polyprotein gene encodes 10 proteins analogous to the HCV proteins. The polyprotein of GBV-B has approximately 25 to 30% homology to that of HCV at the amino acid level (33), while the 5′ and 3′ noncoding regions (NCRs) are more divergent (7, 33, 40). The HCV and GBV-B 5′ NCRs are essential for both replication and translation. The structures are similar; however, GBV-B domain I is predicted to fold into two stem-loops (SL), compared to one SL in HCV, and the GBV-B 5′ NCR is longer due mainly to additional SL IIB and IIC that are not present in HCV (Fig. ​(Fig.1A)1A) (40). The 5′ NCR contains the internal ribosomal entry site (IRES), which can directly bind the 40S ribosomal subunit in order to initiate translation of the viral RNA (19, 38). cis RNA elements involved in RNA replication are also located in the HCV 5′ NCR (for a review, see reference 49). In GBV-B, 5′ NCR segments essential for genome replication have recently been identified (53).Open in a separate windowFIG. 1.(A) Predicted structures of the GBV-B (left) and HCV (right) 5′ NCRs. The scissors on GBV-B represent the sequence that was excised and replaced by the HCV insert, which is represented by scissors on the HCV 5′ NCR. The locations of mutations detected during sequencing are boxed: the first box identifies the deletion (ΔC) in a run of cytosines, and the second box identifies the polymorphisms present at two adjacent uracils (C, C/U). (Adapted from reference 40.) (B) Schematic of the GBV-B genome. During passage of GB/III^HC in tamarins, nine mutations were identified in virus from the T2 serum used to inoculate M1, and these nine mutations remained fixed in all marmoset isolates sequenced. Amino acid changes are indicated by dark arrows, silent mutations are indicated by asterisks, and NCR changes are indicated by dotted arrows.The utility of the GBV-B model was increased by the development of infectious cDNA clones that induced hepatitis upon intrahepatic inoculation of tamarins with in vitro-transcribed RNA (7, 31, 45). In order to further increase the use of GBV-B as a model for HCV, chimeras between GBV-B and HCV were constructed (16, 43, 48). In one chimera, a portion of the GBV-B 5′ NCR containing domain III, which is within the IRES functional domain, was replaced by an analogous region of HCV (40-43). The chimeric GB/III^HC retained IRES translational function and supported replication in tamarins (43). In this study, we examined the host range of this chimeric virus during serial passage in marmosets. We found that chimeric GBV-B failed to adapt during passage in marmosets. Marmosets infected with GB/III^HC displayed variable phenotypes ranging from susceptible to resistant, which appear to be due to a polymorphism in the marmoset population that also affects wild-type (WT) GBV-B (54). The failure of chimeric virus to adapt to replication in marmosets with the resistant phenotype was specific to the chimeric virus, and not the WT, and may involve several factors, including reduced replication capacity and the requirement to acquire multiple adaptive mutations. These barriers cumulatively may result in GB/III^HC experiencing a bottleneck in the resistant marmoset host.     

Leishsmania (Leishmania) amazonensis infection: Muscular involvement in BALB/c and C3H.HeN mice

Recent studies have provided some insights into Leishsmania (Leishmania) amazonensis muscular infection in dogs, although, muscular disease due to leishmaniasis has been poorly documented. The aim of our study was to evaluate involvement of Leishmania in muscular infection of two distinct mouse strains (BALB/c and C3H.He), with different genetic backgrounds. BALB/c mice, susceptible to Leishmania infection, showed, at the beginning of infection, a great number of infected macrophages among muscle fibers; however, in C3H.He resistant mice, muscle fibers were less damaged than in BALB/c mice, but some parasitized macrophages could be seen among them. A follow up of the infection showed an intense inflammatory infiltrate mainly composed of infected macrophages in BALB/c muscles and the presence of amastigotes within muscle fibers; while C3H.He mice exhibited a moderate inflammatory infiltrate among skeletal muscle fibers and an absence of amastigotes. Total destruction of muscles was observed in BALB/c mice in the late phase of infection (day 90) while C3H.He mice showed a process of muscle repair. We concluded that: (1) the muscles of BALB/c mice were more affected by leishmaniasis than those of C3/H.He mice; (2) Leishmania amastigotes are capable of infecting muscular fibers, as observed in BALB/c mice; (3) as inflammatory infiltrate is less intense in C3H.He mice these animals are capable of restoring muscular fibers.     

Differentiation and mineralization of murine mesenchymal C3H10T1/2 cells in micromass culture

The murine mesenchymal cell line, C3H10T1/2 in micromass culture undergoes chondrogenic differentiation with the addition of BMP-2. This study compares the use of BMP-2 vs. insulin, transferrin, and sodium selenite (ITS) to create a chondrogenic micromass cell culture system that models cartilage calcification in the presence of 4 mM inorganic phosphate. BMP-2 treated cultures showed more intense alcian blue staining for proteoglycans than ITS treated cultures at early time points. Both ITS and BMP-2 treated cultures showed similar mineral deposition in cultures treated with 4 mM phosphate via von Kossa staining, however FTIR spectroscopy of cultures showed different matrix properties. ITS treated cultures produced matrix that more closely resembled mouse calcified cartilage by FTIR analysis. ⁴⁵Ca uptake curves showed delayed onset of mineralization in cultures treated with BMP-2, however they had an increased rate of mineralization (initial slope of ⁴⁵Ca uptake curve) when compared to the cultures treated with ITS. Immunohistochemistry showed the presence of both collagens type I and type II in BMP-2 and ITS treated control (1 mM inorganic phosphate) and mineralizing cultures. BMP-2 treated mineralizing cultures displayed more intense staining for collagen type II than all other cultures. Collagen type X staining was detected at Day 9 only in mineralizing cultures treated with ITS. Western blotting of Day 9 cultures confirmed the presence of collagen type X in the mineralizing ITS cultures, and also showed very small amounts of collagen type X in BMP-2 treated cultures and control ITS cultures. By Day 16 all cultures stained positive for collagen type X. These data suggest that BMP-2 induces a more chondrogenic phenotype, while ITS treatment favors maturation and hypertrophy of the chondrocytes in the murine micromass cultures.     

An analysis of parthogenetic cell clones in chimeric C57BL/6(PG)<-->BALB/c mice

We studied the distribution of parthenogenetic cell clones in the retinal pigment epithelium and choroid of eyes on serial sections and in the brain, kidneys, and liver by electrophoretic analysis of glucose phosphate isomerase isozymes in 12 mouse chimeras C57BL/6(PG)<-->BALB/c obtained earlier. Asymmetry was noted in the distribution of the parthenogenetic cell clones in the eye structure, just as the earlier established asymmetry in the distribution of the parthenogenetic clones of epidermal melanoblasts. A high correlation was shown between the ratio of parthenogenetic to normal cells in the retinal pigment epithelium of the right or left eyes and epidermal melanoblasts in the hair cover of the corresponding body half of the chimera. These data suggest that there is a certain relationship between the processes leading to the characteristic distribution of the ectodermal parthenogenetic clones in the retinal pigment epithelium of the right and left eyes and epidermal melanoblasts in parthenogenetic chimeras. Electrophoretic analysis did not show parthenogenetic components in the liver or kidneys of any chimera, and the parthenogenetic component was found in the brain of only two chimeras, in which a high percentage of parthenogenetic cells of ectodermal origin was noted. In these cases, asymmetry was noted in the right and left cerebral hemispheres, just as in the retinal pigment epithelium of the right and left eyes. The data obtained suggest that, during the development of the chimeras, parthenogenetic C57BL/6 cells were actively eliminated from the tissues of endodermal and mesodermal origin. In adult chimeras C57BL/6(PG)<-->BALB/c, parthenogenetic cell clones of ectodermal origin are mostly preserved.     

Quantitative trait loci for tibial bone strength in C57BL/6J and C3H/HeJ inbred strains of mice

Three-point bending technology has been widely used in the measurement of bone strength. Quantitative trait loci (QTLs) for bone strength have been identified using mouse femurs. In this study, we investigate the use of mouse tibiae in identification of QTLs that regulate bone strength. Mouse tibiae were from a F₂ population derived from C57BL/6J (B6) and C3H/HeJ (C3H). Three-point bending was measured using ISO 4049, with the support width adjustable to accommodate specimen sizes outside the scope of ISO 4049. The strain rate is selectable from 0.05 to 500 mm per min. All stress strain diagrams are recorded and retrieved in digital electronic form. Genome scan was performed in The Jackson Laboratory (TJL). QTL mapping was conducted using Map Manager QTX software. Data show that (i) both elastic modulus (stiffness) and maximum loading (strength) value appear as normal distributions, suggesting that multiple genetic factors control the bone strength; (ii) 11 QTLs, accounting for 90% of variation for strength, have been detected. More than half QTLs of three-point bending are located on the same locations of bone density earlier identified from mouse femurs; (iii) a major QTL of femoral and vertebral bone mineral density (BMD) was not detected for bone strength of tibiae; (iv) the QTL on chromosome 4 has extremely high LOD score of 31.8 and represents 60% of the variation of bone strength; and (v) four QTLs of stiffness (chromosomes 2, 11, 15 and 19) have been identified.     

Role of Vanadium (V) in the Differentiation of C3H10t1/2 Cells Towards Osteoblast Lineage: A Comparative Analysis with Other Trace Elements

In recent time, vanadium compounds are being used as antidiabetic drug and in orthopedic implants. However, the exact role of this incorporated vanadium in improving the quality of bone structure and morphology is not known. The impact of vanadium ion was studied and compared to other trace metal ions with respect to the proliferation and osteoblast differentiation of C3H10t1/2 cells. Toxicity profile of these trace metal ions revealed a descending toxicity trend of Fe²⁺ > Zn²⁺ > Cu²⁺ > Co²⁺ > Mn²⁺ > V⁵⁺ > Cr²⁺. The effect of vanadium and other trace metal ions on osteoblast differentiation was evaluated by culturing the cells for 10 days in osteoblastic medium supplemented with different trace ions at concentrations lower than their cytotoxic doses. The results indicated that vanadium has maximum impact on the induction of osteoblast differentiation by upregulating alkaline phosphatase activity and mineralization by up to 145 and 150 %, respectively (p?<?0.05), over control. Cu²⁺ and Zn²⁺ had a mild inhibitory effect, while Mn²⁺, Fe²⁺, and Co²⁺ demonstrated a clear decrease in osteoblast differentiation when compared to the control. The data as presented here demonstrate that orthopedic implants, if supplemented with trace metals like vanadium, may provide a source of better model for bone formation and its turnover.     

The effects of LPS on the cellular composition of the splenic white pulp in responder C3H/He and non-responder C3H/HeJ mice

The aim of the present study was to compare the effects of LPS on the cellular composition of the splenic white pulp in responder C3H/He and non-responder C3H/HeJ mice. The present results show that an intravenous injection of LPS in C3H/He mice results in a number of prominent changes in the histology of the spleen, but none of these histological changes could be demonstrated in the unresponsive C3H/HeJ mice. However, the present study shows that LPS administration resulted in the disappearance of previously trapped immune complexes from the follicles in both responder C3H/He and non-responder C3H/HeJ mice. The significance of this phenomenon is discussed. The localization of intravenously injected LPS in both mouse strains was compared using an immunoperoxidase technique. Most of the injected LPS was taken up by marginal zone macrophages at 2 h after administration. No major differences could be detected in the localization pattern of LPS between C3H/He and C3H/HeJ mice. The present results support the suggestion that the genetically based unresponsiveness of C3H/HeJ mice could be due to an intracellular defect in their response to LPS.     

The different roles of serum and calcium in the control of proliferation of BALB/C 3T3 mouse cells

Summary Proliferatively inactive BALB/c 3T3 mouse cells in dense cultures initiate a growth-division cycle upon exposure to fresh calf serum in a low-calcium (0.01 μM) medium. If these calcium-deprived cells are not supplied with calcium sometime during the first 10 hours after serum stimulation, they will rapidly return to a proliferatively inactive state without initiating DNA synthesis. The prereplicative development of such stimulated calcium-deprived cells appears to stop at an advanced stage, because addition of calcium as late as 10 hours after serum exposure rapidly initiates DNA synthesis, and enables the culture’s DNA-synthetic activity subsequently to reach its peak value at the same time as in control cultures. Issued as NRCC No. 14999. An erratum to this article is available at .     

Quantitative trait locus analysis of atherosclerosis in an intercross between C57BL/6 and C3H mice carrying the mutant apolipoprotein E gene

Inbred mouse strains C57BL/6J (B6) and C3H/HeJ (C3H) differ significantly in atherosclerosis susceptibility and plasma lipid levels on the apolipoprotein E-deficient (apoE-/-) background when fed a Western diet. To determine genetic factors contributing to the variations in these phenotypes, we performed quantitative trait locus (QTL) analysis using an intercross between the two strains carrying the apoE-/- gene. Atherosclerotic lesions at the aortic root and plasma lipid levels of 234 female F2 mice were analyzed after being fed a Western diet for 12 weeks. QTL analysis revealed one significant QTL, named Ath22 (42 cM, LOD 4.1), on chromosome 9 and a suggestive QTL near D11mit236 (20 cM, LOD 2.4) on chromosome 11 that influenced atherosclerotic lesion size. One significant QTL on distal chromosome 1, which accounted for major variations in plasma LDL/VLDL cholesterol and triglyceride levels, coincided with a QTL having strong effects on body weight. Plasma LDL/VLDL cholesterol or triglyceride levels of F2 mice were significantly correlated with body weight, but they were not correlated with atherosclerotic lesion sizes. These data indicate that atherosclerosis susceptibility and plasma cholesterol levels are controlled by separate genetic factors in the B6 and C3H mouse model and that genetic linkages exist between body weight and lipoprotein metabolism.     

Inhibition of BALB/c-3T3 cells in late G1: Commitment to DNA synthesis controlled by somatomedin C

Methylglyoxal bis-(guanylhydrazone) (mGBG) blocked the stimulation of DNA synthesis in quiescent, density-inhibited BALB/c-3T3 cells treated with platelet-derived growth factor (PDGF) and platelet-poor plasma (PPP). Competence formation produced by a transient exposure to PDGF was not effected by mGBG. In contrast, mGBG effectively inhibited the PPP-stimulated progression of competent cells through the G₁ phase of the cell cycle, although maximal inhibition was observed when mGBG was present during both the exposure to PDGF- and PPP-supplemented media. When quiescent cells were treated with PDGF and PPP-supplemented media in the presence of mGBG for 12–18 hours and the mGBG was then removed, cells entered the S phase after a 4 hour lag. The rate of entry into the S phase, but not the time necessary for the cells to progress from the mGBG block into the S phase, was dependent on the concentration of PPP present after removal of the mGBG. Either somatomedin C or insulin, but not epidermal growth factor, fibroblast growth factor, or PDGF were able to substitute for PPP in allowing cells to enter the S phase after the cells were released from the mGBG block. A marked inhibition of (³H)-leucine incorporation in serum-stimulated cultures was produced at mGBG concentrations which caused no decrease in the amount of (³H)-uridine incorporated during a short (15 minute) pulse. The ability of hormones to allow cells to progress to the late G₁ phase and become committed to DNA synthesis after a mGBG inhibition was not related to their ability to restore the normal rate of protein synthesis as determined by (³H)-leucine incorporation.     

Ixodes scapularis: effects of repeated infestations with pathogen-free nymphs on macrophage and T lymphocyte cytokine responses of BALB/c and C3H/HeN mice.

Schoeler, G. B., Manweiler, S. A., and Wikel, S. K. 1999. Ixodes scapularis: Effects of repeated infestations with pathogen-free nymphs on macrophage and T lymphocyte cytokine responses of BALB/c and C3H/HeN mice. Experimental Parasitology 92, 239-248. Ixodes scapularis is the principal vector in the United States of Borrelia burgdorferi, the causative agent of Lyme borreliosis, the human granulocytic ehrichiosis agent, and Babesia microti. Infestation with I. scapularis nymphs has previously been shown to modulate host T lymphocyte cytokine production. Tick-induced host immunomodulation is increasingly recognized as a contributing factor in successful transmission and/or establishment of tick-borne pathogens. This study was conducted to determine the effects of repeated infestations with pathogen-free I. scapularis nymphs on the production of the macrophage cytokines interleukin (IL)-1beta and tumor necrosis factor-alpha and the T lymphocyte cytokines IL-2, IL-4, IL-10, and interferon-gamma in both BALB/c and C3H/HeN mice. The pattern of T lymphocyte cytokine production was evaluated to determine if repeated tick infestation polarizes the immune response toward a Th-1 or Th-2 cytokine profile. Female BALB/c and C3H/HeN mice were infested one to four times with pathogen-free I. scapularis nymphs, with a 14-day tick-free period between each exposure. After each infestation, tick biology parameters were measured and macrophage and T lymphocyte cytokine production was assessed. Elaboration of T lymphocyte and macrophage cytokines was quantitated by antigen capture enzyme-linked immunosorbent assay. Acquired resistance to I. scapularis feeding was not developed by either mouse strain. Significant differences in cytokine production were observed between infested and noninfested mice, as well as between the two mouse strains, following tick infestation. Infestation of both strains with pathogen-free I. scapularis results in a polarization of the host immune response toward a Th-2, anti-inflammatory pattern, with a corresponding suppression of Th-1 responses.     

Brugia pahangi in the BALB/C mouse: a model for testing filaricidal compounds

The BALB/C mouse infected with Brugia pahangi has been evaluated as a model for the selection of filaricidal compounds with activity against immature worms. Mice were infected by the intraperitoneal inoculation of 50 infective larvae and candidate compounds were administered by the intraperitoneal (i.p.), subcutaneous or oral route once daily from day 4 to day 8 post infection. Animals were examined on days 29 to 32 post infection. Variation in the larval recoveries from undrugged mice within and between experimental groups limited the value of drug assessments based upon percentage worm recoveries. The infection rate of undrugged mice was 85% over-all, range 60 to 100%. Using the infection rate of drugged v. undrugged animals as the criterion of activity the test has been evaluated with a series of standard nematicidal compounds. Levamisole and the benzimidazole carbamates, mebendazole, flubendazole and fenbendazole given i.p. at 10 mg/kg daily were active in this screen whilst DEC, DEC-N-oxide, ivermectin, amoscanate, metrifonate and suramin were inactive at the dosages tested. No retardation of growth or morphological abnormalities were observed in worms from the drugged mice.