R.H. BonDurant

Detection of Serum Antibody Responses in Cattle with Natural or Experimental Neospora Infections

Parasite-specific antibody responses were detected using an indirect fluorescent antibody (IFA) test in cattle that were naturally or experimentally infected with Neospora parasites. The test was developed using Neospora tachyzoites isolated from an aborted bovine fetus and grown in bovine cell cultures (isolate BPA1). In all cases, infections were confirmed by the identification of Neospora tachyzoites and/or bradyzoite cysts in fetal or calf tissues using an immunoperoxidase test procedure. Fifty-five naturally infected cows that aborted Neospora-infected fetuses had titers of 320-5,120 at the time of abortion. The titer of 6 cows that were serologically monitored over a prolonged period decreased to 160–640 within 150 days after they aborted infected fetuses. Two of the cows showed an increase in their Neospora titers during their subsequent pregnancy, and they gave birth to congenitally infected calves that had precolostral titers of 10,240-20,480. Postcolostral titers of these calves and of 4 other calves with congenital Neospora infections were all 25,120, whereas calves with no detectable parasites had titers ≤ 160. Two pregnant heifers that were experimentally infected with the BPA1 isolate at approximately 120 days gestation seroconverted to Neospora antigens within 9 days and developed peak titers of 5,120 and 20,480 within 32 days of infection. The fetus taken by caesarian section 32 days postinfection from 1 heifer and the full-term calf born to the other had Neospora titers of 640 and 10,240, respectively. Nine cows that aborted uninfected fetuses and 61 adult cattle maintained under pasture or feedlot conditions, where risk of exposure to Neospora was considered to be low, had titers ≤ 320. Some of the feedlot cattle tested had serologic reactivity that was restricted to antigens at the apical end of both Neospora and Toxoplasma gondii tachyzoites. This type of reactivity, which may result from serologic cross-reactivity between conserved apical complex antigens of closely related sporozoan parasites, differed from the whole parasite fluorescence that was observed with sera from Neospora-infected animals. The significance of these results and the potential application of the IFA test for the diagnosis of Neospora infections in cattle are discussed.

Birth of large calves that developed from in vitro-derived bovine embryos.

High birth weights were observed in calves that developed from bovine embryos produced by in vitro maturation (IVM) and in vitro fertilization (IVF) procedures. After IVM and IVF, embryos were either co-cultured in vitro with oviductal epithelial cells or transferred into the sheep oviduct for development to the blastocyst stage. Blastocysts were transferred to the reproductive tracts of recipient heifers and cows for development to term. Birth weights and gestation periods were compared between calves that developed from in vitro-derived embryos and calves born after artificial insemination (AI) of cows in the herd from which recipient females were selected. Gestation periods were not different among the groups (P > 0.05), but calves that developed from IVM/IVF-derived embryos co-cultured in vitro were larger at birth than calves born from IVM/IVF-derived embryos that developed into blastocysts in the sheep oviduct and calves born from AI (P < 0.001). Dystocia and calf mortality were associated with large calf size at birth. These data were collected from an experiment designed for other purposes, and confounding variables and small sample size could have influenced the observed differences in birth weights. Nevertheless, the extreme birth weights of some calves suggest that abnormal prenatal growth occurs in some IVM/IVF-derived bovine embryos and that conditions for co-culture to the blastocyst stage may exacerbate the problem.

On the isolation of embryonic stem cells: Comparative behavior of murine, porcine and ovine embryos.

The efficiency of isolation and the characteristics of embryo-derived cell lines from murine, porcine, and ovine embryos cultured on STO feeders or homologous embryonic fibroblasts (HEF) feeders were compared. While murine isolated ICM or intact embryos plated on STO or HEF feeders gave rise to cell lines with embryonic stem cell-like (ES-like) morphology, ovine embryos did not. Cell lines with ES-like morphology were isolated from porcine intact embryos and isolated ICM when plated on STO feeders but not when plated on HEF. Neither murine nor porcine ES-like cell lines expressed cytokeratin 18 or vimentin. Unlike murine ES-like cell lines, porcine ES-like cells did not undergo observable differentiation in vitro or in vivo. Cell lines with epithelial-like morphology were isolated from porcine and ovine embryos. Both porcine and ovine epithelial-like cell kines expressed cytokeratin 18. When induced to differentiate in vitro, porcine and ovine epithelial-like cell lines formed vesicular structures. Electron microscopy revealed that the porcine vesicles were composed of polarized epithelial cells, each with a basally-located nucleus and an apical border containing numerous microvilli with a well organized microfilament core. The results of this study show that conditions which allow isolation of ES cells from murine embryos allow the isolation of porcine embryo-derived cell lines sharing some, but not all, the characteristics of murine ES cells.

Experimental reproduction of bovine fetal Neospora infection and death with a bovine Neospora isolate

Studies were conducted to determine the pathogenic potential of the recently isolated bovine Neospora protozoa (BPA-1) for the bovine fetus. Cows chosen for study had Neospora titers < 160 using an indirect immunofluorescent antibody (IFA) test. Four experimental groups were studied. In group 1, 2 fetuses were inoculated in utero at 118 days gestation with culture-derived Neospora tachyzoites. A pregnant control cow was housed in the same pen, observed daily and screened serologically for evidence of exposure to Neospora. In group 2, 2 cows were infected with Neospora tachyzoites at 138 or 161 days gestation, and 1 control cow was given uninfected cell culture suspension simultaneously at 154 days gestation. Groups 3 (85 days gestation) and 4 (120 days gestation) each consisted of 2 cows infected with Neospora tachyzoites and 1 control cow given uninfected material at the same stage of gestation. Dead fetuses were surgically removed from the infected cows in group 1 on postinfection day (PID) 17. The histopathology was compatible with protozoal fetal infection, and protozoa were identified by immunohistochemistry. Viable fetuses were removed surgically from cows in group 2 on PID 28-30. The histopathology was compatible with protozoal fetal infection, protozoa were identified by immunoperoxidase techniques, and Neospora tachyzoites were reisolated in vitro from tissues of the 2 infected fetuses. In groups 3 and 4, the control fetus and 1 infected fetus were removed surgically between PID 26 and PID 33. The remaining infected cows were observed until fetal death or abortion occurred. In group 3, the fetus that was surgically removed from 1 infected cow had no pathologic abnormalities, and parasites were not found (PID 26). The second fetus in group 3 died in utero, and expulsion of a mummified fetus was induced on PID 67. Brain histopathology was compatible with protozoal infection, and parasites were identified by immunoperoxidase techniques. The fetus that was surgically removed (PID 32) from 1 infected cow in group 4 had lesions compatible with protozoal infection, and Neospora tachyzoites were reisolated in vitro from fetal tissues. The second infected cow in group 4 produced a full-term live calf that had a precolostral Neospora titer of 20,480. Clinically, this calf had depressed conscious proprioception in all limbs. Very mild lesions were found in the central nervous system, but protozoa were not found in the tissues. The results demonstrate that the bovine Neospora protozoa can be transplacentally transmitted, resulting in fetal infection and death, and mimics the naturally occurring fetal disease.

ESTABLISHMENT OF PLURIPOTENT CELL LINES FROM PORCINE PREIMPLANTATION EMBRYOS

Embryonic stem (ES) cells are pluripotent cells isolated from in vitro culture of preimplantation embryos. Experiments were undertaken to identify preimplantation embryonic stages and culture conditions under which pluripotent, porcine embryo-derived cell lines could be isolated. Cell lines were established from in vitro culture of intact, porcine early hatched blastocysts and isolated inner cell masses (ICM) from intermediate and late hatched blastocysts on feeder layers prepared from permanent mouse embryonic fibroblasts (STO). The cells of these porcine embryo-derived cell lines had a morphology similar to that of murine ES cells, but colony morphology was more epithelial-like. The cell lines retained a normal diploid karyotype, consistently expressed alkaline phosphatase activity, and survived cryopreservation. When subjected to in vitro differentiation, either spontaneous or induced, the embryo-derived cell lines differentiated extensively into a wide range of cell types representing the 3 embryonic germ layers. In vivo pluripotency of the cells was demonstrated by birth of a chimeric piglet, documented by pigmentation and DNA markers, and the ability to direct the development of nuclear-transfer embryos to the blastocyst stage. Such pluripotent embryo-derived cells provide a potential route for porcine genetic manipulation.

Influence of feeder layer type on the efficiency of isolation of porcine embryo-derived cell lines

Experiments were conducted to determine the effects of feeder layers composed of different cell types on the efficiency of isolation and the behavior of porcine embryo-derived cell lines. Inner cell masses (ICM) isolated from 7- to 8-d-old embryos were plated on feeder layers composed of Buffalo rat liver cells (BRL), a continuous cell line of murine embryonic fibroblasts (STO), STO combined with BRL at a 9:1 and 1:1 ratio, STO with BRL-conditioned medium (STO + CM), porcine embryonic fibroblasts (PEF), PEF combined with BRL at a 9:1 and 1:1 ratio, porcine uterine epithelial cells (PUE), murine embryonic fibroblasts (MEF), or an epithelial-like porcine embryo-derived cell line (PH3A). It was found that embryo-derived cell lines could be isolated only from the STO and the STO with BRL-conditioned medium treatments. The isolated cell lines were of epithelial-like and embryonic stem cell-like (ES-like) morphology. The feeders tested had an effect on the behavior of plated ICM. Some feeders, represented by PUE, BRL, STO:BRL (1:1), PEF:BRL (1:1), and PH3A, did not promote attachment of the ICM to the feeder layer; others, represented by STO and MEF, allowed attachment, differentiation and proliferation. On PEF feeders the ICM spread onto the feeder layer after attachment without apparent signs of proliferation or differentiation. None of the feeders tested increased the efficiency of isolation or the growth characteristics of embryo-derived (both ES-like and epithelial-like) cell lines over that of STO feeders.

Immune and inflammatory responses to reproductive tract infection with Tritrichomonas foetus in immunized and control heifers.

Histopathologic changes and local antibody responses were studied in immunized and control heifers after intravaginal challenge with 10(6) Tritrichomonas foetus. Animals were given 3 intramuscular inoculations of immunoaffinity-purified superficial antigen, TF 1.17, in 2 different adjuvant combinations (incomplete Freunds adjuvant or dextran sulfate plus IFA-8 animals each) or adjuvant alone at 3-wk intervals and were challenged with T. foetus 2 wk later. Histologically, a nonsuppurative endometritis with nodular lymphoid aggregates in the stratum spongiosum was present in 9 of 24 heifers. Twice as many control heifers as immunized had moderate to severe endometritis at 10 wk and the rate of clearance of the organism was significantly faster in immunized than in control heifers. Furthermore, time of clearance was statistically correlated with severity of endometritis at 10 wk postinfection, when necropsies were done (P < 0.02). Because 9-10 wk postinfection is thought to be the critical period for determining fetal loss associated with endometritis, this correlation with early clearance is important to protection against disease. In heifers with moderate to severe infiltration of mononuclear cells in the endometrium, lymphoid nodules and some secondary follicles were detected. In the subgroup of 12 animals from which uterine secretions were collected. IgA antibody responses to antigen were detected by 6 wk in infected animals with increases in mean responses at 8 and 10 wk, but not in uninfected animals. A rationale is presented for consideration of the lymphoid nodules as a possible inductive site for this local antibody response to T. foetus.

Preliminary field evidence for the association of clinical mastitis with altered interestrus intervals in dairy cattle.

Clinical mastitis and reproductive records from two southern California dairy herds were used in a cross-sectional study to determine the risk of an altered interestrus interval following clinical mastitis. An altered interestrus interval was defined as cycles occurring at either less than 18 day or more than 24-day intervals. The data were stratified by herd to assess herd differences and by lactation number to assess confounding by cow parity. The predominant pathogen isolated from mastitis cases in Herd 1 was Staphylococcus aureus , whereas the predominant pathogens in Herd 2 were gram-negative isolates. Cows in Herd 1 which had coliforms cultured from mastitic milk were excluded in the analysis for comparison with Herd 2. In Herd 1, cows with clinical mastitis were less likely to have an altered interestrus interval (Relative Risk [RR]=0.9; 95% Confidence Interval [CI]=0.6,1.6) than herdmates without clinical mastitis. However, cows in Herd 2 were almost two times more likely to have an altered interestrus interval following an episode of clinical mastitis compared to herdmates without clinical mastitis (RR=1.6; 95% CI=1.3,2.0). Because herd management practices differ and could cause differences in mastitis and reproductive outcomes at the dairies, this preliminary field evidence should be followed by prospective studies of luteal function after clinical coliform mastitis.

Effects of endotoxin infusion on circulating levels of eicosanoids, progesterone, cortisol, glucose and lactic acid, and abortion in pregnant cows

The effects of Escherichia coli endotoxin infusions (1.0 or 2.5 micrograms kg-1 over 6 h) on pregnancy were investigated in cows in the first, second and third trimester of gestation. Endotoxin increased the plasma levels of prostaglandins (PGs), thromboxane B2 and cortisol, and decreased progesterone. The severity of the clinical signs and the magnitude of the increases in plasma PGs, thromboxane B2 and cortisol tended to depend on the dose of endotoxin, but were independent of the gestation period. There was hyperglycemia followed by hypoglycemia and lactic acidemia. Hyperglycemia and lactic acidemia were significant only at the high dose of endotoxin. Endotoxin infusion at both doses caused a preferential mobilization of oleic acid from adipose tissue, and also had some effects on the mobilization of palmitic and stearic acids during the post-infusion period. The cows in the first trimester of gestation were more sensitive to the abortifacient effect of endotoxin than cows in the second and third trimester of gestation. The results of this study indicate that the mechanism of endotoxin-induced abortion in cows initially involves a prolonged release of PGF2 alpha and its subsequent stimulant effect on uterine smooth muscle contraction and luteolytic effect leading to a gradual decline in the plasma levels of progesterone. It was concluded that pregnancy terminates in the absence of an adequate level of progesterone, especially during the first trimester of gestation, when progesterone of extraluteal origin is not yet available, coupled with the PGF2 alpha-induced propulsive contraction of the uterus. In addition, the metabolic and circulatory failures in severe cases of endotoxemia, especially at the high dose of endotoxin, resulting either directly or indirectly via the release of various autacoids, catecholamines and cortisol, may also contribute to the termination of pregnancy at any stage of gestation.

Survival of porcine inner cell masses in culture and after injection into blastocysts

Isolation of embryonic stem cells has been documented only in the mouse and perhaps the hamster and cow. We report results of experiments designed to determine the effect of age of porcine embryos (6 through 10 d after the first day of estrus) on isolation of cell lines with embryonic stem cell-like morphology. The capacity of fresh and short-term cultured inner cell mass (ICM) cells to differentiate into normal tissues after injection into blastocysts was also measured. Few Day-6 ICM survived in culture to the first passage onto fresh feeder cells, but cell lines with embryonic stem cell-like morphology developed from Day-7 through Day-10 ICM. Isolation of embryonic stem cell-like colonies was achieved at a higher frequency from ICM isolated from older embryos, but embryonic stem cell-like colonies from older embryos also tended to differentiate spontaneously in culture. Viable porcine chimeras were born after injection of fresh ICM into blastocysts that were transferred to recipients for development to term; no chimeras were born from blastocysts injected with ICM subjected to short-term (1 to 6 d) culture. Germ-cell chimerism was confirmed in one of the chimeras. These results document that undifferentiated cells can be removed from porcine blastocysts, transplanted to other embryos, and contribute to development of normal differentiated tissues, including germ cells. Cells with embryonic stem-like morphology can be isolated in culture from ICM at various embryonic ages, but ICM from young blastocysts (e.g., Day-7 embryos) yield embryonic stem cell-like colonies at lower frequency than do ICM from older blastocysts (e.g., Day-10 embryos).