Recombinant adenovirus encoding the HA gene from swine H3N2 influenza virus partially protects mice from challenge with heterologous virus: A/HK/1/68 (H3N2)

Immunization with recombinant adenoviral vaccine that induces potent immunity has been applied to many infectious diseases. We report here developing a recombinant adenoviral vaccine encoding the HA gene from swine H3N2 influenza virus (SIV). Two replication-defective recombinant adenoviruses were generated: (1) rAd-HA: recombinant adenovirus encoding the HA gene from swine H3N2 influenza virus, and (2) rAd-vector: a control recombinant adenovirus containing adenovirus and transfer plasmids without a foreign HA gene. Mice given rAd-HA developed high titers of neutralizing and hemagglutination inhibition antibodies to SIV in comparison to mice inoculated with rAd-vector or PBS as early as 2 weeks after immunization, and these antibodies were substantially increased in the mice given rAd-HA within the next 3 weeks following the first dose. However, these antibodies were not able to neutralize the virus, A/HK/68 (H3N2), used for challenge. Nonetheless mice immunized with one or two doses of rAd-HA were protected from lethal challenge with heterologous virus, A/HK/1/68 (H3N2). A statistically significant ( P < 0.03) difference between survival rates of rAd-HA mice vs. rAd-vector or PBS mice was observed.

Immunity in the mammary gland

The ruminant mammary gland is an extremely important economic organ in that it provides a major nutrition source for a significant portion of the world's human population. The ruminant mammary gland is also responsible for providing protective immunity to neonates and for defending itself from invading pathogens. A wide array of humoral and cellular immune mechanisms are present in the mammary gland and actively participate in providing immunity to newborns and the mammary gland per se. The acute inflammatory response is essential in determining the outcome of intramammary challenge, and factors affecting innate and adaptive immunity in the context of mammary health are reviewed in detail. The ruminant mammary gland is also unique in that lymphocyte trafficking, which is essential to adaptive immunity, is shared with the peripheral immune system rather than the common mucosal immune system.

Expression, purification, and in vitro biological activities of recombinant bovine granulocyte-colony stimulating factor

Neutrophils are essential components of the innate immune system and they play a critical role in the defense of host against bacterial and fungal infections. The colony stimulating factors are a class of glycoproteins that are required for proliferation, differentiation, and functional activation of hematopoietic progenitor cells. Granulocyte-colony stimulating factor (G-CSF) is a member of this regulatory family of cytokines that specifically stimulates proliferation and maturation of precursor cells in the bone marrow into fully differentiated and functional neutrophils. G-CSF also modulates the biological activities of mature neutrophils in circulation. A bovine G-CSF (bG-CSF) cDNA clone (previously isolated and sequenced in our laboratory) was expressed in Escherichia coli and the biological activities of the solubilized protein from purified inclusion bodies were examined. Flow cytometric analysis of membrane antigen density of neutrophils activated with bG-CSF revealed an upregulation in the expression of CD11a (>114%), CD11b (>148%), CD11c (>87%), and CD18 (>109%). Expression of L-selectin was decreased by more than 43%. There was no change, however, in the expression of CD14. These findings indicate that recombinant bG-CSF (rbG-CSF) expressed in E. coli is biologically active and exerts the same type of effects on neutrophils in vitro as those of human G-CSF (hG-CSF).

Treatment with agmatine inhibits Cryptosporidium parvum infection in infant mice

Cryptosporidium parvum is an intracellular protozoan parasite that causes enteric infection and diarrhea in a wide range of mammalian hosts, including humans and economically important livestock species. There are no effective vaccines or drug treatments available for cryptosporidiosis. Cryptosporidium parvum utilizes a unique metabolic pathway for the synthesis of polyamines, forming agmatine as an intermediary metabolite. We treated infant mice with oral doses of agmatine for 2 days before, the day of, and 5 days following experimental infection with C. parvum. Mice treated with agmatine were significantly less infected with C. parvum than were control mice receiving phosphate-buffered saline. Mice treated with agmatine only on the day of experimental infection with C. parvum were also significantly less infected than were control mice. These data suggest that exogenous agmatine alters the metabolism of C. parvum sufficient to interfere with its ability to colonize the mammalian intestine.

[(1)N,(12)N]Bis(Ethyl)-cis-6,7-dehydrospermine: a new drug for treatment and prevention of Cryptosporidium parvum infection of mice deficient in T-cell receptor alpha

Cryptosporidium parvum infection of T-cell receptor alpha (TCR-alpha)-deficient mice results in a persistent infection. In this study, treatment with a polyamine analogue (SL-11047) prevented C. parvum infection in suckling TCR-alpha-deficient mice and cleared an existing infection in older mice. Treatment with putrescine, while capable of preventing infection, did not clear C. parvum from previously infected mice. These findings provide further evidence that polyamine metabolic pathways are targets for new anticryptosporidial chemotherapeutic agents.

A factor derived from adult rat and cow small intestine reduces Cryptosporidium parvum infection in infant rats

Cryptosporidium parvum is an intracellular protozoan parasite of the mammalian intestine. In rats, C. parvum infection is age related; infants are susceptible, whereas adults are resistant. The transition from susceptibility to resistance usually takes place around the age of weaning. In the present study, infant rats were orally inoculated with a preparation of intestinal scrapings taken from adult rats or cows. Infant rats received the scrapings daily from 3 to 14 days of age, were inoculated with C. parvum oocysts at 9 days of age, and killed at 15 days of age. Fecal samples and intestinal tissues were examined for the presence of C. parvum. Significantly fewer rats were infected in the groups that received intestinal scrapings compared with controls. In addition, infected rats in the treatment groups shed significantly fewer oocysts than those in the control group. Scrapings from the intestinal mucosa of adult cows were also able to protect infant rats from infection, whereas scrapings from intestines of calves were not protective. In sum, these data indicate the presence of a factor in the intestines of adult rats and cows that can transfer protection against C. parvum infection to susceptible infant rats.

B cells are required for the induction of intestinal inflammatory lesions in TCRalpha-deficient mice persistently infected with Cryptosporidium parvum

Mice with targeted disruptions in the T-cell receptor alpha gene (TCRalpha-/-) spontaneously develop inflammatory intestinal lesions with extensive B-cell lamina propria infiltrates. Cryptosporidium parvum infection accelerates intestinal lesion formation in TCRalpha-/- mice. In the present study, TCRalpha-/- mice were crossed with JH-/- (B-cell-deficient) mice and challenged with C. parvum to determine if B cells are required for intestinal lesion development. TCRalpha-/- x JH-/- mice challenged with C. parvum, either as neonates or adults, became persistently infected, whereas TCRalpha-/+ x JH-/+ heterozygote control mice cleared the parasite. Cryptosporidium parvum colonization of TCRalpha-/- x JH-/- mice was heaviest in the distal ileum, with fewer parasites detected in the cecum and distal colon. Despite persistent infection, TCRalpha-/- x JH-/- mice did not develop inflammatory or hyperplastic intestinal lesions as detected in C. parvum-infected TCRalpha-/- mice. These findings demonstrate that B cells are a necessary component for the development of inflammatory intestinal lesions of C. parvum-infected TCRalpha-/- mice.

Cryptosporidium parvum-induced inflammatory bowel disease of TCR-beta- x TCR-delta-deficient mice

Experimental inoculation of neonatal immunocompetent strains of mice with Cryptosporidium parvum results in a transient, noninflammatory enteric infection. In the present study, we show that inoculation of mice deficient in alphabeta and gammadelta T cells (TCR-beta- x TCR-delta-deficient mice) with C. parvum results in persistent infection and severe inflammatory bowel disease-like lesions. The most severe lesions in these mice were in the cecum with similar yet less severe lesions in the ileum and proximal colon. The most notable aspect of the histopathology was glandular hyperplasia with abscess formation, extensive fibrosis of the lamina propria with infiltrates of predominately polymorphonuclear cells and macrophages, and a few small aggregates of B cells. Persistently infected mice also developed extensive hepatic periportal fibrosis in association with C. parvum colonization of bile ducts. Lesions observed in TCR-beta- x TCR-delta-deficient mice were markedly different than previously described lesions detected in C. parvum-infected TCR-alpha-deficient mice. Cryptosporidium parvum-infected TCR-alpha-deficient mice have extensive infiltrations of B cells, whereas TCR-beta- x TCR-delta-deficient mice had only a few small aggregates of B cells. These findings indicate that although gammadelta T cells are not necessary for induction of intestinal inflammation in C. parvum-infected alphabeta T-cell-deficient mice, their presence does alter the morphology of the ensuing lesion.

Modulation of fat-soluble vitamin concentrations and blood mononuclear leukocyte populations in milk replacer-fed calves by dietary vitamin A and beta-carotene

Dairy calves (n = 18), separated from dams at birth, were fed 1 L of pooled-colostrum. For the remaining 7 wk of the study, they were fed one of three diets consisting of either a custom-formulated milk replacer without vitamin A (controls), or supplemented with retinyl palmitate (equivalent to 32,000 IU of vitamin A/d) or with beta-carotene (equivalent to 20,000 IU of vitamin A/d). Plasma retinol, beta-carotene, and RRR-alpha-tocopherol concentrations were lowest at birth, and increased substantially from birth to 1 wk postpartum in all groups, a probable consequence of ingestion of colostrum. From 1 to 7 wk of age, retinol concentrations were greatest in retinyl palmitate-supplemented calves, intermediate in beta-carotene-supplemented calves and lowest in control calves. At 2, 3, 5, 6, and 7 wk, RRR-alpha-tocopherol concentrations were lower in retinyl palmitate-supplemented calves than in control calves. A negative correlation between plasma retinol and vitamin E concentrations existed from wk 2 to 7, suggesting vitamin A influences the absorption and distribution of RRR-alpha-tocopherol. Supplemental retinyl palmitate, but not beta-carotene, was associated with a reduction in the percentage of blood mononuclear leukocytes expressing CD2, CD4, and CD8-T cell antigens and interleukin-2 receptors. By wk 7, leukocyte populations from retinyl palmitate-supplemented calves were more similar to those from adult cattle than those from control calves, suggesting that supplemental vitamin A, as retinyl palmitate, affects the maturation of the neonatal immune system. Differences in the composition of blood mononuclear leukocyte populations may represent changes in immune competency.

Cloning and expression of a DNA sequence encoding a 41-kilodalton Cryptosporidium parvum oocyst wall protein

This study was conducted to produce a recombinant species-specific oocyst wall protein of Cryptosporidium parvum. Antigens unique to C. parvum were identified by gradient sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting of oocyst proteins from several different Cryptosporidium species. Antiserum was then prepared against a 41-kDa antigen unique to C. parvum and used to identify a recombinant DNA clone, designated rCP41. Expression of CP41 mRNA in C. parvum oocysts was confirmed by reverse transcriptase PCR (RT-PCR). Although the CP41 sequence was shown by PCR to be present in the genome of C. baileyi, CP41 mRNA was not detected in this species by RT-PCR. Immunofluorescence staining with antiserum against recombinant CP41 detected native CP41 antigen on the surface of C. parvum oocysts but failed to detect CP41 on C. baileyi oocysts. Immunoelectron microscopy demonstrated that native CP41 was distributed unevenly on the C. parvum oocyst surface and was associated with amorphous oocyst wall material. In an enzyme-linked immunosorbent assay, purified rCP41 performed as well as native C. parvum oocyst protein in measuring the serological responses of young calves and adult cows to experimental and natural C. parvum infections. These results indicate that recombinant CP41 antigen may have potential in the immunodiagnosis of cryptosporidiosis.

Oral dosing of neonatal mice with sucrose reduces infection with Cryptosporidium parvum

Cryptosporidium parvum is a significant cause of diarrheal disease in humans and economically important livestock species. There is no effective treatment available for this protozoan parasite. Mechanisms of intestinal colonization by C. parvum are not well understood, but it has been suggested that the parasite may utilize a lectin-like receptor. We used an infant mouse model to test whether high sugar concentrations in the intestine would affect in vivo colonization with C. parvum. We found that a single oral dose of sucrose, administered to mice at the time of, or 24 hr before, challenge with C. parvum significantly reduced infection. Significant reduction of infection was also seen in mice given isomaltose. Histologic examination of intestinal sections of mice treated with sucrose or isomaltose, but not other sugars, showed marked vacuolation of the small intestinal epithelium 1 day after treatment. Three days after treatment, tissue appeared normal. Thus, sucrose and, to a lesser extent, isomaltose reduced in vivo colonization with C. parvum and altered epithelial cell morphology in intestines of mice.

Antigen-specific B-cell unresponsiveness induced by chronic Mycobacterium avium subsp. paratuberculosis infection of cattle

Mycobacterium avium subsp. paratuberculosis infection of cattle results in a chronic granulomatous enteritis. Clinical disease (i.e., cachexia, diarrhea, and high fecal bacterial counts) is preceded by a lengthy subclinical stage of disease. The immunologic mechanisms associated with the progression of infected cattle from subclinical to clinical disease are unclear. In this study, a cell proliferation assay was used in combination with flow cytometry to compare peripheral blood lymphocyte responses of cattle with subclinical paratuberculosis to responses of cattle with clinical paratuberculosis. B cells from cattle with subclinical disease proliferated vigorously upon stimulation with M. avium subsp. paratuberculosis antigen, with up to 12.4% of the total B cells responding. However, B cells from cattle with clinical disease did not proliferate upon antigen stimulation despite good proliferation in response to concanavalin A stimulation. In addition, these animals had high percentages of peripheral blood B cells. B cells from noninfected animals did not proliferate upon M. avium subsp. paratuberculosis antigen stimulation. Thus, it appears that B-cell proliferation is a sensitive indicator of subclinical Johne's disease. Furthermore, the immunologic mechanisms responsible for the antigen-specific unresponsiveness of peripheral blood B cells may be significant in the eventual progression from subclinical to clinical Johne's disease in cattle.

Phenotype analysis of peripheral blood mononuclear cells in periparturient dairy cows

Impaired immune function during the periparturient period contributes to the increased susceptibility of the cow to infectious disease around the time of calving. Changes in subpopulations of peripheral blood mononuclear cells during the immediate periparturient period can contribute to the observed immunosuppression in cows, but it is not known exactly when and what changes occur. Using a flow cytometer and monoclonal antibodies directed against antigenic markers on mononuclear cells, the populations of CD3, CD4, CD8, and gamma delta T-cell receptor positive cells were examined in eight periparturient Jersey cows during the 2 wk before and 2 wk after parturition. The percentage of cells that were positive for CD3, CD4, and gamma delta T-cell receptor markers exhibited a significant decline before calving and reached a nadir at calving. These percentages did not return to precalving levels until 2 wk after calving. These data are compatible with the hypothesis that declining T-cell populations may contribute to the immunosuppression reported for dairy cows at calving.

Cryptosporidium parvum initiates inflammatory bowel disease in germfree T cell receptor-alpha-deficient mice

Flora-bearing mice with targeted disruption of T cell receptor (TCR)-alpha or -beta genes spontaneously develop intestinal inflammation with features similar to ulcerative colitis in humans. TCR-alpha-deficient mice maintained germfree or colonized with a limited number of intestinal bacteria failed to develop inflammatory bowel disease (IBD)-like lesions. Evidently, inflammation in these mice does not develop spontaneously or result from a generalized antigenic stimulation, but rather requires induction by a heretofore unidentified specific stimulus. We describe the development of IBD-like lesions in germfree TCR-alpha-deficient mice monoassociated with the protozoan Cryptosporidium parvum. Lesions were seen in distal ileum, cecum, and colon and were most severe in the cecum. A prominent leukocytic infiltrate within the lamina propria was a common characteristic of the lesions observed in the C. parvum-infected germfree TCR-alpha-deficient mice. The leukocytic infiltrate was composed of aggregates of B220+ cells, the majority of which expressed surface IgD (ie, conventional B lymphocytes). It has been proposed that antigenic stimulation by a microorganism(s) is needed to initiate intestinal inflammation in TCR-alpha-deficient mice. Our results indicate that a single microbial species, C. parvum, is capable of triggering the development of IBD-like lesions in germfree TCR-alpha-deficient mice.

Evaluation of periparturient dairy cows and contact surfaces as a reservoir of Cryptosporidium parvum for calfhood infection

OBJECTIVE

To determine whether periparturient cows or contact surfaces to which newborn calves are exposed are reservoirs of Cryptosporidium parvum oocysts.

ANIMALS

Periparturient cows and their calves.

PROCEDURE

Using direct fluorescent antibody (DFA) and acid-fast (AF) assays, fecal samples taken before and after calving from periparturient cows were tested for C parvum oocysts. Fecal samples from calves were collected every other day from age 7 to 21 days and were tested by use of the AF assay. Topsoil from close-up and maternity pens and scrapings from wooden walls and floors of calf hutches were tested for C parvum oocysts by use of DFA assay.

RESULTS

None of the 384 fecal samples obtained 1 to 21 days before or after calving or on the day of calving from 154 periparturient cows contained detectable C parvum oocysts. Despite this lack of detectable periparturient shedding, the period prevalence of calfhood infection was 92% (123/134) from age 7 to 21 days. Soil samples from the close-up and maternity pens where newborn calves spend the first 12 hours of life also were negative for C parvum oocysts. Wood scrap ings from the outer 2 mm of the walls and floors of empty and cleaned calf hutches that were ready to receive calves were C parvum oocyst-positive.

CONCLUSIONS

Conditional on sensitivity of DFA, periparturient cows did not appear to shed detectable C parvum oocysts. In contrast, the floors and walls of wooden calf hutches contained detectable C parvum oocysts on the surface.

Strategies for the control of Cryptosporidium parvum infection in calves

Cryptosporidium parvum is a protozoan parasite that is now recognized as one of the leading causes of diarrhea in young calves. To date, there are no drugs or preventive measures available for the control of this disease. We have developed an oral vaccine that, when given to calves at birth, protects against experimental challenge with C. parvum. However, when field tested on a large dairy operation with heavy endemic C. parvum infection, the vaccine failed to provide protection. The difference in these results is most likely due to uncontrolled early (probably within hours of birth) exposure to C. parvum on the farm versus controlled exposure at 1 wk of age in the experimental trials. The successful control of C. parvum in the field may require vaccines that generate a rapid (within the first few days of life) cell-mediated immune response in the calf. Successful use of such a vaccine will also require improved hygiene and management practices to minimize the exposure of calves to C. parvum in the initial days of life, thus allowing time for protective immune responses to be generated. Careful attention to hygiene in the management of sick calves is also critical to minimize the spread of the parasite to other animals.

Oral administration of putrescine inhibits Cryptosporidium parvum infection of neonatal C57BL-6 mice and is independent of nitric oxide synthesis

We examined the efficacy of oral administration of putrescine (a byproduct of arginine metabolism) in the prevention of Cryptosporidium parvum infection of neonatal C57BL-6 mice. Mice were challenged with the parasite at 7 days of age. Mice receiving putrescine from 3 through 10 days of age had a delayed pattern of infection as compared with control mice. Mice receiving putrescine from 3 through 21 days of age did not become infected, whereas control mice were heavily infected. We also tested the hypothesis that putrescine inhibited C. parvum infection by enhancing nitric oxide (NO) production. Mice receiving the NO inhibitor N omega-L-arginine methyl ester (L-NAME) parenterally and putrescine orally did not become infected. Thus, it appears that putrescine inhibits C. parvum infection in an NO-independent manner.

Accelerated inflammatory bowel disease of TCR-alpha-deficient mice persistently infected with Cryptosporidium parvum

TCR-alpha-deficient mice spontaneously develop inflammatory bowel disease (IBD) at 8-9 mo old. This study characterizes an accelerated form of IBD induced by Cryptosporidium parvum infection. Cryptosporidium parvum-infected TCR-alpha-deficient mice developed IBD as early as 4 wk old when challenged at 1 wk old. The lesions of this accelerated IBD resembled the lesions of spontaneous IBD in TCR-alpha-deficient mice and consisted of a mononuclear cell infiltrate within the intestinal lamina propria and an increased proliferation of enterocytes. The mononuclear cells within the lamina propria consisted of B cells and gamma delta T cells. The distal ileum, cecum, and colon were grossly thickened due to a hyperplastic mucosa and edematous submucosa. The mechanism by which C. parvum infection accelerates development of IBD is presently unclear.

Bovine lentivirus induces early transient B-cell proliferation in experimentally inoculated cattle and appears to be pantropic

Bovine immunodeficiency-like virus (BIV) was first isolated in 1972 (M. J. VanDerMaaten et al., J. Natl. Cancer Inst. 49:1649-1657, 1972). Much work has been done on the molecular characterization of BIV in studies using the original BIV R29 isolate; however, R29 is believed to be attenuated since it no longer causes either mononuclear cell number increases or detectable enlargement of lymphatic nodules in experimentally infected cattle. The host cell tropism and changes in host peripheral blood lymphocyte populations following infection with BIV are unknown. Recently, we isolated and characterized a field isolate of BIV, FL112 (D. L. Suarez et al., J. Virol. 67:5051-5055, 1993) that causes a transient, mononuclear cell lymphocytosis in experimentally infected cattle. In the present study, cattle were inoculated with BIV FL112, and data from flow cytometry showed that BIV causes a B-cell lymphocytosis with no consistent, significant changes in other mononuclear cell populations, including CD3+, CD4+, and CD8+ cells. Cell sorting and PCR amplification were used to show that BIV may be pantropic. Proviral DNA was present in CD3+, CD4+, CD8+, and B-cells, monocytes, and WC1 cells (gamma/delta T cells, null cells) by 3 to 6 days postinoculation and also at 2.5 years postinoculation.

Field testing of prophylactic measures against Cryptosporidium parvum infection in calves in a California dairy herd

OBJECTIVE

To test the ability of oral vaccination or probiotic treatment with lactic acid-producing bacteria to protect calves from Cryptosporidium parvum infection under field conditions.

ANIMALS

134 Holstein calves born on a dairy farm where cryptosporidiosis was endemic.

PROCEDURE

Calves were randomly assigned to 1 of 3 treatment groups at birth. Calves in the vaccine group received an oral dose of C parvum vaccine within several hours of birth. Calves in the bacteria group received an oral dose of lactic acid-producing bacteria daily for the first 10 days after birth. Control calves were not treated. All calves were monitored for diarrhea and fecal shedding of C parvum oocysts for 3 weeks.

RESULTS

There were no significant differences in the incidence of diarrhea and oocyst shedding among the 3 groups.

CONCLUSIONS

Neither vaccination nor probiotic treatment was effective in preventing C parvum infection in calves under field conditions. High numbers of C parvum in the environment may have overwhelmed any potential benefits of these regimens. Further work is necessary to develop effective prophylaxis against C parvum under field conditions.

Effect of pasteurization on infectivity of Cryptosporidium parvum oocysts in water and milk

Cryptosporidium parvum is a major cause of diarrheal disease in humans and has been identified in 78 other species of mammals. The oocyst stage, excreted in feces of infected humans and animals, has been responsible for recent waterborne outbreaks of human cryptosporidiosis. High temperature and long exposure time have been shown to render oocysts (suspended in water) noninfectious, but for practical purposes, it is important to know if high-temperature--short-time conditions (71.7 degrees C for 15 s) used in commercial pasteurization are sufficient to destroy infectivity of oocysts. In this study, oocysts were suspended in either water or whole milk and heated to 71.7 degrees C for 15, 10, or 5 s in a laboratory-scale pasteurizer. Pasteurized and nonpasteurized (control) oocysts were then tested for the ability to infect infant mice. No mice (0 of 177) given 10(5) oocysts pasteurized for 15, 10, or 5 s in either water or milk were found to be infected with C. parvum on the basis of histologic examination of the terminal ileum. In contrast, all (80 of 80) control mice given nonpasteurized oocysts were heavily infected. These data indicate that high-temperature--short-time pasteurization is sufficient to destroy the infectivity of C. parvum oocysts in water and milk.

In vitro blastogenic responses and interferon-gamma production by intestinal intraepithelial lymphocytes of calves

Intestinal intraepithelial lymphocytes are a large and heterogenous population of lymphocytes located strategically at the entry site of enteric pathogens into the body. Their ability to proliferate and produce interferon-gamma in vitro in response to mitogens or interleukin-2 was investigated in four-week-old calves. It was found that they had similar mitogen-induced blastogenic responses and produced interferon-gamma like the peripheral blood lymphocytes of four-week-old calves. Preliminary studies indicated that the intraepithelial lymphocytes also responded to Cryptosporidium parvum antigen in vitro. Thus, intraepithelial lymphocytes may be important in the host's response to enteric infections of calves such as cryptosporidiosis.

Cryptosporidium parvum infection in T-cell receptor (TCR)-alpha- and TCR-delta-deficient mice

Mice deficient in either alpha beta or gamma delta T cells were more susceptible to infection with the protozoan parasite Cryptosporidium parvum than were control mice. Both neonatal and adult alpha beta-T-cell-deficient mice developed chronic infection. Gamma delta-T-cell-deficient neonatal mice were more susceptible than control mice but were able to clear the infection. Adult gamma delta-T-cell-deficient mice were not susceptible to infection. These data indicate that alpha beta T cells are important for resistance to C. parvum while gamma delta T cells have a less critical role.

Development of cellular immune functions in neonatal to weanling mice: relationship to Cryptosporidium parvum infection

Lymphocyte phenotypes and cellular immune responses (blastogenesis and production of cytokines) to Cryptosporidium parvum were determined for spleen cells taken from BALB/c mice. These parameters were measured in mice at 1, 2, 3, and 4 wk of age, either exposed or not exposed to C. parvum in vivo. The percentage of T cells and the T-helper subset increased from weeks 2 to 4; B cells reached a peak percentage at 2 wk. Blastogenic responses were elevated at 1 wk and declined to a low level during weeks 2 to 4. Interferon-gamma production was maximal at 4 wk. No interleukin-5 production was seen. Data obtained were similar for cells from mice either exposed or not exposed to C. parvum in vivo. These data indicate that age-related changes, particularly the increased percentage of T cells and increased interferon-gamma production, are temporally related to the acquisition of resistance to colonization of mice with C. parvum. The data also indicate that these age-related changes occur in the absence of specific exposure to parasite antigens.

Phenotypic analysis of peripheral blood lymphocytes and intestinal intra-epithelial lymphocytes in calves

The phenotype of intestinal intraepithelial lymphocytes (IEL) of young calves has not been described. In order to determine the potential role of IEL in protection against enteric infection, it is important to characterize these cells in normal calves. Therefore, IEL of calves were analyzed phenotypically and compared with peripheral blood lymphocytes (PBL) via flow cytometry using monoclonal antibodies to cell surface markers. Approximately 25% of PBL and IEL expressed the gamma/delta T-cell receptor (TCR-1+). TCR-1+ PBL co-expressed WC1 (antigen expressed on a subset of lymphocytes expressing the gamma/delta T-cell receptor), whereas only a small percent of TCR-1+ IEL co-expressed WC1. TCR-1+ cells in the PBL co-expressed the interleukin-2 receptor (IL-2r), whereas TCR1+ cells in the IEL co-expressed ACT-2 (null cell and CD-8+ T-cell activation marker). There were approximately twice as many CD-4+ cells as CD-8+ cells in the PBL, whereas there were three to five times as many CD-8+ cells as CD-4+ cells in the IEL. Thus, IEL of calves are antigenically distinct from PBL.

Protection of calves with a vaccine against Cryptosporidium parvum

Cryptosporidium parvum causes enteric infection and diarrhea in calves, other species of economically important livestock, and humans. There are no effective treatments currently licensed for this parasite, and preventive measures are difficult. In addition to direct economic losses to the cattle industry, infected calves may contaminate water supplies with oocysts and contribute to human cryptosporidiosis. We have developed a vaccine offering partial protection against C. parvum infection in calves. Nine calves received an oral preparation of lyophilized C. parvum oocysts shortly after birth, and 10 calves served as nonvaccinated controls. All calves received colostrum. At 1 wk of age, all calves were administered 10(4) viable C. parvum oocysts orally. Clinical disease and oocyst shedding were monitored daily. Mean duration of diarrhea was 4 days for control calves and 1.7 days for vaccinated calves. Mean duration of oocyst shedding was 5.3 days for control calves and 2 days for vaccinated calves. These differences were statistically significant and suggest that this vaccine has the potential to reduce diarrhea and oocyst shedding caused by C. parvum.

Effects of Cryptosporidium parvum infection on lymphocyte phenotype and reactivity in calves

Cryptosporidium parvum is a protozoan parasite now recognized as a significant cause of neonatal diarrhea in calves, and infection is also widespread in both immunocompetent and immunocompromised humans. No effective treatment or preventive measures against C. parvum infection are available, owing largely to the lack of understanding of immunologic mechanisms of resistance to and recovery from this parasite. In the present study, we compared phenotypes of lymphocytes from peripheral blood, spleen, mesenteric, and prescapular lymph nodes of calves infected or not infected with C. parvum. We also compared reactivity of these lymphocytes to mitogens and C. parvum antigen in vitro. There were more non-T, non-B (null) lymphocytes in all tissues of infected compared with control calves. The percent of CD8+ lymphocytes was significantly increased in spleens of infected compared with control calves, and there were markedly less CD4+ than CD8+ cells in spleens of both groups (i.e. low CD4/CD8 ratios). Splenic lymphocytes showed significantly decreased in vitro proliferation to pokeweed mitogen and C. parvum antigen stimulation compared with lymphocytes from other tissues. These findings suggest that null lymphocytes and CD8+ lymphocytes may be important in the expression and regulation of bovine immune responses to C. parvum in vivo.

In vitro proliferation and production of gamma interferon by murine CD4+ cells in response to Cryptosporidium parvum antigen

Spleen cells from mice immunized with Cryptosporidium parvum were enriched for T cells by passage over an affinity chromatography column. The proliferative response of these cells was > 2-fold higher than the response of unenriched cells. T-enriched cells were enriched further for either CD4+ cells or CD8+ cells. The proliferative response of CD4-enriched cells was > 4-fold higher than the response by unenriched cells. CD8+ cells were essentially nonresponsive to C. parvum antigen. Culture supernatant fractions from these variously enriched splenocyte populations were assayed for cytokine production. Cultures containing CD4+ cells produced gamma interferon and interleukin-2 following incubation with C. parvum antigen. None of the cultures produced interleukin-4. Production of gamma interferon and interleukin-2, but not interleukin-4, is characteristic of the previously described Th1 helper cell subset. Our data indicate that a subset of murine lymphocytes consistent with the Th1 helper cell phenotype proliferates following in vitro stimulation with C. parvum antigen.

Requirements for CD4+ cells and gamma interferon in resolution of established Cryptosporidium parvum infection in mice

The importance of CD4+ cells and gamma interferon (IFN-gamma) in the resolution of established Cryptosporidium parvum infection was investigated with a murine model of cryptosporidiosis in severe combined immunodeficient (SCID) mice. C. parvum-infected SCID mice were reconstituted with spleen cells from immunocompetent donors. The recipients were able to resolve their C. parvum infection by 17 days postreconstitution. Treatment of reconstituted SCID mice with either anti-CD4 monoclonal antibodies to deplete them of CD4+ cells or with anti-IFN-gamma to neutralize IFN-gamma activity reduced or eliminated their ability to resolve C. parvum infection whereas treatment with either anti-CD8 monoclonal antibodies or anti-asialo-GM1 antibodies had no effect. We also found C. parvum-specific antibodies in serum samples from two of four reconstituted SCID mice killed on postreconstitution day 17 but not in unreconstituted SCID mice. Moreover, anti-CD4-treated mice had no detectable specific antibodies to C. parvum, whereas all mice treated with either anti-CD8 or anti-asialo-GM1 had substantial levels of specific antibodies in their serum. Although the role of the specific antibody is not known, these findings clearly indicate that resolution of an established C. parvum infection in immunologically reconstituted SCID mice is dependent on both CD4+ cells and IFN-gamma.

Bovine L-selectin: a peripheral lymphocyte homing receptor

The cDNA clone encoding for the bovine peripheral lymph node homing receptor (L-selectin) was isolated and sequenced. The predicted amino acid sequence of bovine L-selectin showed an overall high identity with that of human and murine L-selectin. However, the cytoplasmic tail of bovine L-selectin showed little similarity to that of human and murine L-selectin. The monoclonal antibody DREG-56, which recognizes human L-selectin, blocked the binding of bovine peripheral blood lymphocytes to high-walled endothelial venules in murine peripheral lymph nodes. Surface expression of bovine L-selectin was high in lymphocytes isolated from peripheral lymph nodes and low in lymphocytes isolated from Peyer's patches. This evidence strongly suggests that bovine L-selectin is a peripheral lymphocyte homing receptor.

Gamma interferon functions in resistance to Cryptosporidium parvum infection in severe combined immunodeficient mice

Severe combined immunodeficient (SCID) adult mice are relatively resistant to Cryptosporidium parvum infection, even though they are deficient in both T- and B-cell function. The requirement for gamma interferon (IFN-gamma) in this resistance was examined by treatment of these mice with monoclonal antibody to IFN-gamma. SCID mice injected intraperitoneally with monoclonal anti-IFN-gamma 4 h before and three times weekly after challenge with C. parvum had heavy intestinal infections 3 weeks postchallenge. SCID mice similarly injected with irrelevant antibody were not infected. Furthermore, SCID mice receiving a single injection of anti-IFN-gamma either 2 h before or 18 h after challenge were also susceptible to infection. Although IFN-gamma was not detected in SCID mouse intestinal samples, it was found in the supernatant of SCID mouse splenocyte cultures after stimulation with C. parvum antigens. On the other hand, SCID mice receiving multiple injections of antibodies against tumor necrosis factor remained resistant to infection. These data indicate that the resistance of SCID mice to C. parvum infection is IFN-gamma dependent, whereas tumor necrosis factor appears not to play a significant role.

Resistance of severe combined immunodeficient mice to infection with Cryptosporidium parvum: the importance of intestinal microflora

Cryptosporidium parvum is a protozoan parasite which colonizes intestinal epithelium, causing transient diarrheal illness in immunocompetent hosts and severe chronic disease in immunocompromised hosts. We examined the resistance of severe combined immunodeficient mice, either bearing intestinal flora or germfree, to intestinal infection with C. parvum. Infection was not readily detected in flora-bearing adult severe combined immunodeficient mice until 5 to 7 weeks following oral challenge with C. parvum. In contrast, germfree adult severe combined immunodeficient mice were heavily infected 3 weeks following challenge. These data support the hypothesis that resistance of adult mice to C. parvum infection does not require a specific immune response but can be mediated by nonspecific mechanisms associated with the presence of intestinal flora.

Evidence for conservation of peripheral lymphocyte homing receptors between the bovine, murine and human species

In rodents and humans, lymphocytes circulate throughout the body and return preferentially to their tissues of origin via a process termed homing. The specificity of homing is controlled by the binding of tissue-specific receptors on lymphocytes to ligands on specialized high-walled endothelial venules (HEV) found in lymphoid tissue. The murine and human peripheral lymphocyte homing receptors (PLHR) have been characterized and shown to be similar to each other. We present evidence for a similar receptor in the bovine. Bovine peripheral blood lymphocytes (PBL) bind to the HEV of murine peripheral lymph node tissue in vitro. The same sugars that have been shown to decrease the binding of murine or human lymphocytes to murine HEV also decrease the binding of bovine PBL to murine HEV. Neuraminidase treatment affects lymphocyte binding in a similar manner in the bovine, murine and human species. Phorbol myristate acetate (PMA) stimulation, which has been shown to reduce the expression of murine and human PLHR, also reduces the binding of bovine PBL to murine HEV. These data suggest conservation of PLHR between these species.

Sequence of the bovine CD44 cDNA: comparison with human and mouse sequences

CD44 is a cell-surface glycoprotein involved in leukocyte adherence, T-cell activation and lymphocyte homing. We have isolated and sequenced a cDNA clone which encodes for bovine CD44. The predicted amino acid sequence of bovine CD44 has an overall high similarity with that of human and mouse CD44, 79.5 and 73.2%, respectively. In all three species, CD44 has a similar transmembrane region and cytoplasmic tail. In addition, all of the cysteine residues and a majority of the putative N-linked glycosylation sites in the extracytoplasmic domain are conserved between bovine, human and mouse. All three species have an area of low interspecies similarity within the extracytoplasmic domain. This area has a similarity of 34% between bovine and human, 27% between bovine and mouse, and 35% between human and mouse. The location of this area of low similarity is conserved between species.

Numbers and percent of T lymphocytes in bovine peripheral blood during the periparturient period

To determine if periparturient immunosuppression in dairy cattle might be due to an alteration in total numbers of percent of T lymphocytes, we examined the numbers and percent of T lymphocyte subsets in peripheral blood from periparturient dairy cows, some of which received recombinant bovine granulocyte colony stimulating factor (rbG-CSF) during the study. Beginning 2 weeks preparatum through 4 weeks postpartum, peripheral blood mononuclear cells (PBMC) were collected and labeled with monoclonal antibodies to BoCD5, BoCD4, and BoCD8, and the percent of cells positive for each marker measured by flow cytometry. The percent of PBMC expressing BoCD5 (total T cells), and BoCD8 (T suppressor/cytotoxic cells) was not significantly different between the groups, or at different times before and after calving. The percent of PBMC expressing BoCD4 (T helper cells) was not significantly different between the groups, however, within both groups there was a higher percent of BoCD4+ cells after calving than during the prepartum period. In cows receiving rbG-CSF, total numbers of PBMC were significantly increased compared to controls during the postpartum treatment period.

Cryptosporidium parvum infection in mice: inability of lymphoid cells or culture supernatants to transfer protection from resistant adults to susceptible infants

The ability of murine lymphoid cells or culture supernatant fractions to transfer protection against Cryptosporidium parvum was examined. Spleen or mesenteric lymph node (MLN) cells were taken from adult mice resistant to C. parvum and given either directly or following in vitro culture to infant mice. Neither spleen or MLN cells, nor cells or supernatant fractions from in vitro cultures transferred protection from resistant adult donors to susceptible infant recipients. These results may be due to limitations in the present model. Alternatively, the resistance of infant mice to C. parvum may not be immunologically mediated.

Effects of preventing periparturient hypocalcemia in cows by parathyroid hormone administration on hematology, conglutinin, immunoglobulin, and shedding of Staphylococcus aureus in milk

The effects of hypocalcemia at parturition on concentrations of serum immunoglobulin and conglutinin, number of bacteria shed into milk, and leukograms of dairy cows were investigated from -4 wk prepartum to 4 wk postpartum. Ten healthy multiparous Holstein cows were fed a high calcium diet to induce hypocalcemia at parturition. Five cows received intramuscular parathyroid hormone to prevent hypocalcemia at parturition. All cows experienced a leukopenia (attributable to an absolute and relative neutropenia) during the 1st wk after calving, decreased serum conglutinin activity during the first 3 wk postpartum, and decreased concentration of serum IgG1 during the 3 wk before calving. At parturition, a large increase in organisms was found in foremilk (1000 to 10,000 times more than prepartum values). Neither the hematological changes nor the decreased immunoglobulin concentration was influenced by hypocalcemia or the development of milk fever. This implies that the degree of hypocalcemia observed did not have a large or irreversible influence on bacterial infection, hematological, or humoral immunity changes in periparturient cows.

Resistance of calves to Cryptosporidium parvum: effects of age and previous exposure

Cryptosporidium parvum is a coccidian parasite that causes diarrheal disease in many vertebrate species, including young (less than or equal to 1 month old) calves. Older calves and adult cattle are resistant to infection. In this study, newborn calves were raised in isolation from C. parvum for 1 week to 3 months before experimental challenge with the parasite. Calves orally challenged with C. parvum at 1 week of age shed oocysts in their feces and had diarrhea after challenge exposure. When these calves were rechallenged at 1 and 3 months of age, they neither shed oocysts nor had diarrhea. There was no significant increase in the mean anticryptosporidium enzyme-linked immunosorbent assay serum antibody titer in these calves following any of the challenge exposures. Calves orally inoculated with C. parvum for the first time at 1 month of age shed oocysts, had diarrhea after challenge exposure, and were resistant to rechallenge at 3 months of age. These calves had a twofold increase in serum antibody titer after the first challenge and no increase after the second challenge. Calves orally inoculated with C. parvum for the first time at 3 months of age shed oocysts, and two of seven animals had diarrhea. These calves had a 10-fold increase in serum antibody to C. parvum after exposure. This study demonstrates that calves raised in isolation from C. parvum remain susceptible to challenge until at least 3 months of age. Furthermore, within this time period, initial exposure and recovery renders calves resistant to further challenge with the parasite. The data also suggest that exposure of young calves to C. parvum may inhibit the development of a serum antibody response to the parasite.

In vitro murine lymphocyte blastogenic responses to Cryptosporidium parvum

Spleen and mesenteric lymph node lymphocytes from both Cryptosporidium parvum-exposed and unexposed mice were cultured with antigen (Ag) prepared from C. parvum oocysts. Spleen lymphocytes from oral-, intraperitoneal-, or oral + intraperitoneal-exposed mice did not respond significantly (P greater than 0.05) to Ag stimulation. Spleen lymphocytes from multioral-exposed mice, however, demonstrated significant (P less than or equal to 0.01) Ag-specific blastogenesis. Mesenteric lymph node lymphocytes did not respond to in vitro Ag stimulation regardless of the route of in vivo priming. These results demonstrate an in vitro cell-mediated immune response against C. parvum by lymphocytes in murine spleen.

Extravasation of lymphocytes via paracortical venules in sheep lymph nodes: visualization using an intracellular fluorescent label

In rodents and humans, lymphocytes extravasate into lymph nodes via specialized paracortical venules lined with high endothelium (HEV). Sheep and other ruminants do not have morphologically defined HEV in their lymph nodes. It has been assumed that lymphocyte extravasation in these species proceeds via analogous structures; i.e., paracortical venules lined with low to medium endothelium. In this study, lymphocyte suspensions were prepared from surgically excised lymph nodes of sheep and labeled with an intracellular fluorescent dye, H33342. Labeled cells were infused intravenously back into donors, and sheep were killed at various intervals after infusion. Frozen sections of lymph nodes were examined microscopically for the location of labeled cells. Ten minutes after infusion, labeled cells were seen in the lumen of venules located in the paracortical region of the nodes. At later time points, cells were seen apparently migrating through the venule walls and in the adjacent paracortical tissue. Similar experiments were performed in which H33342-labeled murine lymphocytes were infused into syngeneic mice. When equivalent cell numbers (based on animal size) were infused, no obvious differences were seen between location and kinetics of appearance of labeled cells in lymph nodes of sheep compared to those of mice. These results indicate that lymphocyte extravasation in sheep proceeds via paracortical venules in lymph nodes. The function of these venules appears to be analogous to HEV in nonruminant species.

Effects of colostral antibody on susceptibility of calves to Cryptosporidium parvum infection

Effects of colostral antibody on susceptibility of calves to Cryptosporidium parvum infection were examined. Six calves were fed pooled colostrum that contained C parvum antibody, 6 times daily (at 4-hour intervals) for 7 days and then milk replacer for 7 days. Colostrum was obtained from healthy cows or cows inoculated parenterally with C parvum oocysts before parturition. Antibody content was determined in serum and colostrum whey, using an ELISA for anticryptosporidia immunoglobulin. Six calves were fed colostrum from healthy cows 1 time, and then milk replacer 6 times daily for 14 days. On day 1, all calves were challenge exposed with C parvum, PO, and were monitored daily for diarrhea and oocyst shedding. Bovine colostrum containing specific antibody to C parvum, at ELISA titers up to 10,240, was not effective in protecting calves against challenge exposure to C parvum.

Function and regulation of lymphocyte-mediated immune responses: relevance to bovine mastitis

Bovine mastitis is one of the most costly diseases to the dairy industry. Prospects for effective vaccines are limited by the variety of microorganisms capable of causing mastitis. An understanding of the physiologic and immunologic factors controlling the susceptibility of the cow to disease will lead to more rational approaches to prevention and control. In this paper, we describe the basic components of the immune system, drawing upon information derived from studies with rodents and humans. Some of these findings have been confirmed in the bovine and other domestic species, and it is likely that further study will reveal additional similarities between the immune systems of laboratory animals, humans, and domestic animals. Some important differences have already been identified, such as altered lymphocyte circulation patterns in ruminant versus non-ruminant species. These differences are discussed. We describe the structural and functional properties of major histocompatibility complex antigens and their role in regulation of immune responses. Finally, we discuss the consequences of antigen-induced activation of T-lymphocytes and the role of these cells in response to disease-causing microorganisms.

Lymphocyte recirculation in cattle: patterns of localization by mammary and mesenteric lymph node lymphocytes

We examined patterns of lymphocyte localization in female dairy cattle following infusion of 51Cr-labeled autologous lymphocytes prepared from surgically excised mammary or ileal mesenteric lymph nodes. Labeled lymphocytes prepared from mammary lymph nodes were recovered in proportionally high numbers from mammary and prescapular lymph nodes, and in low numbers from intestinal mesenteric nodes. This pattern was observed in both heifers and lactating cows. In contrast, labeled lymphocytes prepared from ileal mesenteric lymph nodes of lactating cows were recovered in proportionally high numbers from intestinal mesenteric nodes, and in low numbers from mammary and prescapular nodes. These findings, when compared with previous results in sheep and swine, support the hypothesis that lymphocytes do not migrate efficiently between the gut and mammary gland of ruminants.

Autoreactive blood cells and programmed cell death in growth and development of protochordates

The tunicate Botryllus is a marine protochordate whose clonal colonies undergo regulated natural transplantations when they come into contact in nature. The outcome of these transplantations (fusion or rejection) is controlled by genes of a highly polymorphic histocompatibility system that resembles in many respects the mammalian major histocompatibility complex (MHC). While fusion or rejection reactions are often completed within 24 hr after transplantation, resorption of one partner of a pair of fused semiallogeneic colonies may occur days to weeks after initial contact. The latter process is similar to the degeneration of old individuals, or zooids, that precedes maturation of each new generation of asexual buds. Here we describe comparisons of in vitro reactions of a) mixtures of cells from allogeneic animals and b) cells taken from animals at the zooid-resorption ("takeover") stage of colony development. In vitro autoreactivity of cells from resorbing colonies may reflect in vivo responses to senescent cells, which in turn may be related to allorecognition events that govern fusion or rejection between colonies.

Susceptibility of germfree or antibiotic-treated adult mice to Cryptosporidium parvum

Adult mice are more resistant than neonatal mice to intestinal colonization with the protozoan parasite Cryptosporidium parvum. Development of a mature intestinal flora may play a role in this resistance. We compared susceptibilities to colonization with C. parvum in adult conventional mice, adult germfree mice, and adult conventional mice treated with oral antibiotics to deplete the intestinal flora. Germfree mice of both CD1 and BALB/c strains were colonized at day 7 following inoculation with C. parvum oocysts isolated from the feces of an infected, diarrheic calf. Age-matched conventional mice of the same strains were comparatively resistant to colonization. Conventional mice treated with antibiotics remained resistant to colonization. These results suggest that the microflora in the intestine was not the sole determinant of resistance or susceptibility to colonization. The germfree adult mouse as an experimental model of cryptosporidiosis is discussed.

Lymphocyte localization in lymph nodes of swine: changes induced by lactation

Localization patterns of lymphocytes taken from mammary, ileal mesenteric, or prefemoral lymph nodes of pubescent or lactating swine were examined. Lymphocyte suspensions were prepared from surgically excised lymph nodes, labeled with 51chromium, and infused back into the donors. Eighteen hours later, pigs were killed, and lymph nodes from six different regions examined for radiolabel. The greatest concentrations of labeled cells were consistently recovered from mesenteric and bronchial lymph nodes, with lesser concentrations recovered from mammary and peripheral nodes. This occurred regardless of origin of the infused cells, and in both pubescent and lactating pigs. Although localization patterns were similar, the total recovery of infused mammary node cells in the six nodes examined was consistently higher in lactating than in pubescent pigs. In contrast, recovery of infused mesenteric node cells was lower in lactating than in pubescent pigs.

Effects of Staphylococcus aureus on bovine mononuclear leukocyte proliferation and viability: modulation by phagocytic leukocytes

In vitro effects of killed Staphylococcus aureus cells on bovine blood mononuclear leukocytes from uninfected cows or cows with chronic staphylococcal mastitis were assessed using a lymphocyte proliferation assay and a [51Cr] release cytotoxicity assay. Killed S. aureus cells cultured with mononuclear leukocytes caused a concentration-dependent decrease in lymphocyte proliferation that was associated with a concomitant decrease in mononuclear leukocyte viability. Responses of mononuclear leukocytes from uninfected and infected cows to killed S. aureus were similar, indicating effects were independent of the infection status of the animal. Addition of blood polymorphonuclear leukocytes to blood mononuclear leukocyte cultures without S. aureus cells did not alter mononuclear leukocyte viability but suppressed lymphocyte proliferation at the highest polymorphonuclear leukocyte:mononuclear leukocyte ratios (4:1 and 8:1) tested. When S. aureus cells and polymorphonuclear leukocytes were cultured with mononuclear leukocytes, both blood and milk polymorphonuclear leukocytes protected against the loss of viability compared with leukocytes cultured with S. aureus cells alone but did not consistently restore proliferative responses of the lymphocytes. These observations demonstrate that lymphocyte proliferation and mononuclear leukocyte viability are detrimentally affected by S. aureus cells, an effect that can be modulated by blood or milk polymorphonuclear leukocytes.