An evaluation of the mononuclear cells derived from bovine mammary gland dry secretions using leukocyte antigen specific monoclonal antibodies, light scattering properties and non-specific esterase staining

Impact of apitherapy on canine, equine, and chicken lymphocytes, in vitro

Apitherapy is a form of alternative medicine that utilizes products from the western honeybee (Apis mellifera), including honey, propolis, and honeybee venom, to improve the health status of human patients by altering host immunity. An added benefit of these products is that they are nutraceuticals and relatively inexpensive to aquire. Currently, little is known about the use of honeybee products in veterinary species, as well as their impact on host immunity. In the present in vitro study, honey, propolis, and honeybee venom were co-cultured with enriched canine, equine, and chicken peripheral blood lymphocytes (PBLs) with cell proliferation, cell viability/apoptosis, and cellular morphology evaluated. Concanavalin A (Con A) and dexamethasone were used as stimulatory and suppressive controls, respectively. Honeybee products' effects on the three veterinary species varied by product and the species. Honey stimulated the PBLs proliferation in all three species but also displayed some increased cytotoxicity. Propolis stimulated proliferation in canine and equine PBLs, however, it suppressed proliferation in the chicken PBLs. Honeybee venom was the strongest PBL stimulant for all three species and in the equine, surpassed the stimulant response of Con A and yet, enhanced PBL cell viability post culture. In summary, the results of this preliminary in vitro study show that these three honeybee products do impact lymphocyte proliferation and viability in dogs, horses, and chickens, and that more research both in vitro and in vivo will be necessary to draw conclusions regarding their future use as immune stimulants or inhibitors.

Analysis of Colostrum and Udder Skin Swabs from a Dairy Goat Herd in Germany regarding the Occurrence of Mycobacterium avium Subsp. paratuberculosis

Simple Summary

The analysis of transmission routes for paratuberculosis as well as their prevention are critical for effective disease control. The aim of the present study was to assess the importance of colostrum and the udder skin as routes for transmission of Mycobacterium avium subspecies paratuberculosis (MAP) within a dairy goat herd. Swabs of the udder skin and colostrum samples were collected from goats of a paratuberculosis-infected herd during lambing season and analyzed for MAP DNA. Additionally, cultivation of the swabs was performed. MAP could not be detected in the colostrum. A low number of udder skin swabs was positive for MAP DNA but no bacteria could be cultured. Because the detection methods are imperfect, the occurrence of MAP in colostrum or on the udder skin can never be completely excluded. Therefore, present recommendations concerning colostrum and youngstock management should still be re-evaluated, but applied in goat herds within a paratuberculosis control program until the role of colostrum and udder skin for within-herd transmission of MAP is further investigated.

Abstract

Oral intake of Mycobacterium avium subspecies paratuberculosis (MAP) in first days of life is considered to be the main route of infection for paratuberculosis. This can be related to a direct contact to contaminated feces or feeding of MAP containing colostrum. Colostrum is believed to become contaminated either by lactogenic shedding or introduction of MAP from environmental sources. In this pilot study, the presence of MAP in individual and bulk colostrum samples from a paratuberculosis-infected, vaccinated dairy goat herd in Germany and the effect of udder skin disinfection on the MAP load of colostrum were examined. In order to distinguish between lactogenic shedding and fecal contamination, 49 udder skin swabs were cultivated on solid medium whereas 29 swabs were additionally analyzed by qPCR. qPCR was applied on 110 individual colostrum samples collected from 55 goats, one before and one after disinfection with a mycobactericidal disinfectant, and 14 bulk colostrum samples. MAP DNA was detected in 10.3% (3/29) of the swab samples, but no viable MAP was cultivated from any sample. These results indicate a low-level MAP contamination of the udder skin and colostrum of milking goats suggesting a low risk of MAP transmission via these routes.

Adaptive Cell-Mediated Immunity in the Mammary Gland of Dairy Ruminants

Mastitis is one of the greatest issues for the global dairy industry and controlling these infections by vaccination is a long-sought ambition that has remained unfulfilled so far. In fact, gaps in knowledge of cell-mediated immunity in the mammary gland (MG) have hampered progress in the rational design of immunization strategies targeting this organ, as current mastitis vaccines are unable to elicit a strong protective immunity. The objectives of this article are, from a comprehensive and critical review of available literature, to identify what characterizes adaptive immunity in the MG of ruminants, and to derive from this analysis research directions for the design of an optimal vaccination strategy. A peculiarity of the MG of ruminants is that it does not belong to the common mucosal immune system that links the gut immune system to the MG of rodents, swine or humans. Indeed, the MG of ruminants is not seeded by lymphocytes educated in mucosal epithelia of the digestive or respiratory tracts, because the mammary tissue does not express the vascular addressins and chemokines that would allow the homing of memory T cells. However, it is possible to elicit an adaptive immune response in the MG of ruminants by local immunization because the mammary tissue is provided with antigen-presenting cells and is linked to systemic mechanisms. The optimal immune response is obtained by luminal exposure to antigens in a non-lactating MG. The mammary gland can be sensitized to antigens so that a local recall elicits neutrophilic inflammation and enhanced defenses locally, resulting from the activation of resident memory lymphocytes producing IFN-γ and/or IL-17 in the mammary tissue. The rational exploitation of this immunity by vaccination will need a better understanding of MG cell-mediated immunity. The phenotypic and functional characterization of mammary antigen-presenting cells and memory T cells are amongst research priorities. Based on current knowledge, rekindling research on the immune cells that populate the healthy, infected, or immunized MG appears to be a most promising approach to designing efficacious mastitis vaccines.

Variability in peripheral blood enrichment techniques can alter equine leukocyte cellularity, viability and function

Peripheral blood is commonly sampled to assess the health status of human and veterinary patients. Venous blood collection is a minimally invasive procedure, and in the horse, the common collection site is the jugular vein. Post blood collection, sample processing for leukocyte enrichment can vary by research laboratory with the potential to yield different effects on the enriched cells and their function. The focus of the present study was to compare a common blood dilution-leukocyte enrichment technique using a Histopaque gradient medium (His) to a modified leukocyte buffy coat syringe-lymphocyte separation medium technique (Syr- LSM) with peripheral blood from 12 healthy horses. The endpoints examined included cell recovery/mL of blood, cell viability, leukocyte enrichment purity, leukocyte cell marker subset phenotype, leukocyte spontaneous and mitogen-induced proliferation and secretory TNFα concentrations. Leukocyte cell recovery/mL of whole blood and cell viability was significantly increased in enriched leukocytes from the Syr-LSM technique. Interestingly, the percentage of CD8⁺ and CD21⁺ were significantly increased with the His technique as was Con A-induced proliferation. Still, leukocyte cell purity and TNFα concentrations from the 72 h cell culture supernatants were comparable across the two enrichment techniques. To summarize, the type of whole blood leukocyte enrichment technique employed can affect the results of immunologic assay endpoints possibly altering data interpretation.

The Mammary Gland in Mucosal and Regional Immunity

The mammary gland (MG) lacks a mucosa but is part of the mucosal immune system because of its role in passive mucosal immunity. The MG is not an inductive site for mucosal immunity. Rather, synthesis of immunoglobulin (Ig)A by plasma cells stimulated at distal inductive sites dominate in the milk of rodents, humans, and swine whereas IgG1 derived from serum predominates in ruminants. Despite the considerable biodiversity in the role of the MG, IgG passively transfers the maternal systemic immunological experience whereas IgA transfers the mucosal immunological experience. Although passive antibodies are protective, they and other lacteal constituents can be immunoregulatory. Immune protection of the MG largely depends on the innate immune system; the monocytes–macrophages group together with intraepithelial lymphocytes is dominant in the healthy gland. An increase in somatic cells (neutrophils) and various interleukins signal infection (mastitis) and a local immune response in the MG. The major role of the MG to mucosal immunity is the passive immunity supplied to the suckling neonate.

The Immunology of Mammary Gland of Dairy Ruminants between Healthy and Inflammatory Conditions

The health of dairy animals, particularly the milk-producing mammary glands, is essential to the dairy industry because of the crucial hygienic and economic aspects of ensuring production of high quality milk. Due to its high prevalence, mastitis is considered the most important threat to dairy industry, due to its impacts on animal health and milk production and thus on economic benefits. The MG is protected by several defence mechanisms that prevent microbial penetration and surveillance. However, several factors can attenuate the host immune response (IR), and the possession of various virulence and resistance factors by different mastitis-causing microorganisms greatly limits immune defences and promotes establishment of intramammary infections (IMIs). A comprehensive understanding of MG immunity in both healthy and inflammatory conditions will be an important key to understand the nature of IMIs caused by specific pathogens and greatly contributes to the development of effective control methods and appropriate detection techniques. Consequently, this review aims to provide a detailed overview of antimicrobial defences in the MG under healthy and inflammatory conditions. In this sense, we will focus on pathogen-dependent variations in IRs mounted by the host during IMI and discuss the potential ramifications of these variations.

Clinical disease and stage of lactation influence shedding of Mycobacterium avium subspecies paratuberculosis into milk and colostrum of naturally infected dairy cows

Mycobacterium avium ssp. paratuberculosis (MAP) is the causative agent of Johne's disease (JD). One mode of transmission of MAP is through ingestion of contaminated milk and colostrum by susceptible calves. The objective of this study was to determine if the amount of MAP shed into the milk and colostrum of infected cows was affected by severity of infection as well as the number of days in milk (DIM). Milk was collected over the 305-d lactation period from naturally infected cows in the asymptomatic subclinical (n=39) and symptomatic clinical (n=29) stages of disease, as well as 8 noninfected control cows. All milk samples were assayed for MAP by culture on Herrold's egg yolk medium and either BACTEC 12B (Becton Dickinson, Franklin Lakes, NJ) or para-JEM (Thermo Fisher Scientific, Trek Diagnostic Systems Inc., Cleveland, OH) liquid medium, and by direct PCR for the IS900 target gene. Mycobacterium avium ssp. paratuberculosis was detected in 3.8, 4.1, and 12.6% of milk samples collected from cows with subclinical JD after culture in Herrold's egg yolk medium, liquid medium, and direct PCR, respectively. The frequency of MAP positivity increased to 12.9, 18.4, and 49.2% of milk samples collected from cows with clinical JD by these same methods, respectively. None of the milk samples collected from control cows was positive for MAP by any detection method. Viable MAP was primarily isolated from milk and colostrum of subclinically and clinically infected cows collected in early lactation (DIM 0-60), with negligible positive samples observed in mid (DIM 60-240) and late (DIM 240-305) lactation. This study demonstrates that shedding of MAP into milk is affected by infection status of the cow as well as stage of lactation, providing useful information to producers to help break the cycle of infection within a herd.

Pulpal cellular reactions to experimental tooth movement in rats

OBJECTIVE

The objective was to study the early cellular reactions of the dental pulp during experimental tooth movement.

STUDY DESIGN

A total number of 98 male rats were used. Tooth movement was induced for 1 to 168 hours by inserting elastic bands between maxillary first and second molars of animals, which were labeled with tritiated thymidine. Pathologic signs, macrophage content, and proliferation of fibroblasts and endothelial cells were assessed histologically on autoradiographs of second molar pulps. Data were analyzed using ANOVA with Tukey's test as post hoc pairwise comparison.

RESULTS

Pathologic signs and macrophage content generally increased with time after the induction of tooth movement. The proliferation of pulpal connective tissue progenitor cells and endothelial cells increased as a reaction to the force application.

CONCLUSIONS

Force-induced tooth movement may lead to extensive, however temporary, trauma of the pulpal tissues, which react with early wound-healing events, such as macrophage invasion, cell proliferation, and angiogenesis.

In Vitro Peripheral Blood Mononuclear Cell Proliferation in a Crossbred Cattle Population

Immune function measured by Staphylococcus aureus- and phytohemagglutinin- (PHA-) induced cell proliferation was assessed in a population of 445 genetically defined, F2 and backcross Charolais-Holstein crossbred cattle when the animals were approximately 5 mo of age. Variation in Staph. aureus-induced, PHA-induced, and control proliferation [peripheral blood mononuclear cell (PBMC) and media only] was observed at d 2, 3, 4, 5, 9, and 10 of in vitro culture. The levels of Staph. aureus-induced, PHA-induced, and control proliferation were strongly positively correlated between days of culture within-assay (e.g., between d 2 and d 3 or between d 4 and d 5). Responses were also positively correlated when the same individuals were resampled and the assay repeated within 3 mo. Analyses fitting linear mixed models using REML showed that Staph. aureus-induced and PHA-induced proliferation was significantly associated with control proliferation and the year of birth. The age of the animal at sampling influenced only Staph. aureus-induced proliferation, with Staph. aureus-induced proliferation increasing with the age of the animal. Control proliferation was influenced by a sex x cross interaction, although in this study, sex was confounded by management, as female cattle were housed and reared differently from male cattle. All 3 measures of immune function were influenced by sire, demonstrating that these traits are partially under genetic control, and indicating that it may ultimately be possible to identify quantitative trait loci for these measures of immunity.

Studies on the modulation of leucocyte subpopulations and immunoglobulins following intramammary infusion of beta 1,3-glucan into the bovine udder during the dry period

Inflammatory and immunological reactions after intramammary infusion of beta 1,3-glucan were studied during the steady dry period and involution phase of the bovine udder. The effects of a single intramammary infusion of two different doses (100 and 200 mg) of beta 1,3-glucan were evaluated during the steady dry period. In a second study, the effects of beta 1,3-glucan at drying off were studied by using two treatment regimens; a single infusion at drying off, compared with two infusions of the compound, at drying off and again 2 weeks later. Total and differential leucocyte counts were measured in both blood and udder secretions. Additionally, the expression of receptors for CD14 and MHC class II on leucocytes, and the expression of receptors for CD4, CD8, WC1, IL2R and B-cells on lymphocytes was measured in mammary secretions by flow cytometric analyses. The concentrations of immunoglobulins in udder secretions were measured by radial immunodiffusion. The results showed that a single intramammary infusion of beta 1,3-glucan during the steady dry period causes transient enhancement of some aspects of the inflammatory and immune responses. The increases in somatic cell counts, numbers of monocytes/macrophages, and in proportions of CD14+ and MHC class II+ leucocytes in udder secretions were dose-dependent. Infusion of beta 1,3-glucan also slightly increased the proportion of CD4+ lymphocytes and the concentrations of IgG1 and IgG2 in dry secretions. Infusion of beta 1,3-glucan at drying off seemed to accelerate the involution process through an increase in somatic cells, particularly in the numbers of macrophages, in mammary secretions. The numbers of lymphocytes and polymorphonuclear leucocytes, the proportions of IL2R+ lymphocytes, the proportions of CD14+ or MHC class II+ leucocytes and the concentrations of IgG1 and IgG2 also increased in comparison with untreated controls. Moreover, a second infusion of beta 1,3-glucan tended to prolong this response, indicating that this might be an effective means of enhancing the mammary defence against udder infections closer to calving. In conclusion, the results indicate the intramammary infusion of beta 1,3-glucan could be used to enhance the defence mechanisms of the bovine udder against infections, especially during early involution.

Differential distribution of T lymphocyte subpopulations in the bovine mammary gland during lactation

The existence and distribution of T lymphocyte subpopulations in the mammary parenchymal tissue of cows were immunohistochemically detailed during early lactation. CD2+, CD4+, and CD8+ T lymphocytes were localized primarily in the mammary parenchymal tissue. CD8+ T lymphocytes were predominant over CD4+ T lymphocytes and occurred in close contact with the alveolar epithelium and between epithelial cells in the central area of the upper mammary gland. CD4+ T lymphocytes were present in equal numbers in the epithelial and connective tissue area. Occasionally, both CD4+ and CD8+ T lymphocytes formed cell clusters in the interalveolar connective tissue. The ratio of CD4+ T lymphocytes to CD8+ T lymphocytes was less than 1.0 and was lower in the epithelial area than in the connective tissue. The distribution of CD4+ and CD8+ T lymphocytes was similar in the parenchymal tissue of the gland cistern. The observation that there is a preferential presence of CD8+ T lymphocytes in the epithelial area of the bovine mammary gland during early lactation might indicate that these cells participate in the maintenance of the integrity of the epithelium.

Expression of surface antigens on blood and mammary leukocytes in lactating and dry ewes

Flow cytometry was used to study the expression of CD4, CD8, CD14, CD18, WC1, MHCII, B-cell and L-selectin on CD45+ leukocytes in ovine blood and mammary secretions from lactating and dry ewes. The proportion of CD4+ lymphocytes was significantly lower and the proportion of CD8+ lymphocytes significantly higher in mammary secretions than in blood. This suggests that a selective migration to or retention of CD8+ cells in favour of CD4+ cells occurs in the mammary gland. L-selectin staining intensity on lymphocytes and neutrophils was lower in mammary secretions than in blood. In contrast, CD18 staining intensity was higher on leukocytes in milk, but not in dry secretions, than on corresponding cells in blood. These changes in adhesion molecules are in accord with shedding of L-selectin and up-regulation of CD18 during transendothelial migration. Expression of leukocyte antigens differed with lactational status mainly in mammary secretions. In milk, the staining intensity of CD18+ lymphocytes and neutrophils was higher than in dry secretions and more milk neutrophils expressed L-selectin. In contrast, greater numbers of IL-2R+ and MHCII+ lymphocytes and CD14+ leukocytes were observed in dry secretions. An increased proportion of these subpopulations could lead to increased immunological responsiveness of the udder during the dry period.

Alteration in immune responsiveness during the peripartum period and its ramification on dairy cow and calf health

Substantial evidence indicates that innate and acquired defense mechanisms are lowest from 3 wk precalving to 3 wk postcalving. This lowered responsiveness includes aspects of systemic and mammary gland immunity that may account, at least in part, for the increased incidence of peripartum disease. The physical and metabolic stresses of pregnancy, calving, and lactation may contribute to this decrease in host resistance and the subsequent increase in disease incidence. However, variation among cows in their host resistance mechanisms suggests that genotype and phenotype may possibly be used to identify cows that are able to mount beneficial immune responses over the periparturient period. Our own studies suggest that cows may be categorized as high or low responders based on the peripartum antibody responses to ovalbumin and Escherichia coli J5. Low responders were hyporesponsive to these test antigens and had a higher incidence of peripartum diseases, particularly mastitis. In many species, a functional link exists between the immune and endocrine systems, and, during periods of stress or physical injury, neuropeptides and neuroendocrine hormones function as immunomodulators. Initial investigations of peripartum cows reveal positive relationships between growth hormone kinetics and profiles of antibody response. Whether hormone fluctuations during the periparturient period are responsible for the alterations observed in immune responsiveness remains uncertain.

Effects of peripartum stress and health on circulating bovine lymphocyte subsets

Alterations in the proportions of peripheral blood lymphocyte subsets was monitored using flow cytometry, before, during and after the peripartum period (week-8 to week (wk) 16) of dairy cows, when pregnancy and lactational stresses prevail and disease incidence is highest. A health code was assigned to each animal at each sampling time, and a subset of non-pregnant, non-lactating (NPNL) cows were sampled for comparisons, and to examine the effect of pregnancy and lactation only, on lymphocyte subset proportions. Results were expressed as the percentage of positive stained cells expressing CD2, CD4, CD8, WC1(gamma delta), IgM and class II major histocompatibility complex (MHC-II) molecules, as determined by flow cytometry. Comparisons of subset proportions were made across time and between health status categories. Mean fluorescence intensity (MFI) values were also examined across the periparturient period for CD2, CD4, CD8 and gamma delta T cell subsets. All T cell subsets varied significantly during the perparturient period in healthy cows, especially around parturition. B cell and MHC-II+ populations remained relatively constant until after calving and then significantly (P < or = 0.06) decreased. Compared to NPNL cows, all T cell subsets were significantly lower in healthy cows at most time points, whereas B cell and MHC-II+ cells were comparable to the NPNL values. CD2, CD4, and CD8 subsets decreased significantly at wk-3 and returned to initial subset proportions by wk 16. Conversely, the WC1 population increased at wk-3 relative to calving but declined to approximate initial proportions at calving. Health status had no significant overall effect on any subset unless it was separated by weeks in which case there were interactions between health and week for CD2 and CD8. Results indicate that variations in T lymphocyte subsets and in the concentrations of surface marker molecules (MFI) occur more as a result of pregnancy and lactation than health status in the dairy cow and that these factors have the least influence upon B cell and MHC-II+ populations during the periparturient period.

Lactation stage-dependent changes of lymphocyte subpopulations in mammary secretions: inversion of CD4+/CD8+ T cell ratios at parturition

PROBLEM

Determination of lactation stage-dependent changes in levels of lymphocyte subpopulations in milk.

METHOD

Flow cytometric assay was used to identify and assay lymphocyte subpopulations in bovine milk at different stages of lactation.

RESULTS

Lymphocyte subpopulations in mammary secretions of dairy cows change during the lactation cycle. In involuting glands (dry gland), approximately 80-90% of lymphocytes were CD2+ T cells. The proportion of CD2+ T cells, however, decreased to approximately 50% at the colostral stage an fluctuated between 50 to 60% in normal (mature) milk. Throughout the lactation stages, less than 5% were B cells as identified by the monoclonal antibodies against CD21 and MHC class II antigens. Subset analysis showed, however, that the proportion of CD5+ T cells decreased from 90% in involuting gland secretions to 75% in colostrum (peripartum stage), and to approximately 40-50% in the normal (mature) milk, CD4+ T cells constituted between 45 to 55% of lymphocytes in the dry gland secretion but decreased drastically at parturition and maintained at the level below 20% throughout normal lactation. In contrast, the proportion of CD8+ T cells in the dry gland secretion was low, between 30 to 40%, but increased steadily, in an inversely-related manner with that of CD4+ T cells, to approximately 40-50% at parturition and maintained at approximately 30-40% during the normal lactation stage thereafter. Two-color immunofluorescence study revealed further that practically all of the CD8+ cells in dry gland secretions were CD2+, and approximately 40% of them were CD5-. Throughout the lactation cycle, WC1+ gamma delta T cells comprised only 2 to 5% of lymphocytes in mammary secretions.

CONCLUSIONS

T lymphocyte subpopulations change dynamically during stages of the lactation cycle. The selective migration of T lymphocyte subpopulations to and from the mammary gland, and their functional roles in the immune competence and regulation of the dam and sucklings remain to be elucidated.

T-cell subsets in blood and lymphoid tissues obtained from fetal calves, maturing calves, and adult bovine

Assessment of CD2, CD4, CD8 and gamma delta cell distribution among mononuclear cells obtained from the blood and lymphoid tissues of fetal calves, 0-150-day-old calves and adult cows was the focus of this investigation. The distributions of some of the lymphocyte subsets in peripheral blood showed variation in fetal and maturing calves as well as being markedly different from those observed in adult cows. We provide evidence that as early as 1 month prepartum, fetal calves have a full complement of at least four of the major T-cell subsets found in the normal bovine. In blood, CD2(+) were significantly higher at 1, 30 and 90 days of age, CD4(+) and CD8 cells demonstrated a peak in the fetuses that dropped below adult levels from 1 to 120 days of age, and gamma delta (+) cells were highest at birth and decreased to adult levels by 150 days of age. Except for the gamma delta (+) cells, the subsets were significantly higher in lymphoid tissues obtained from fetal and maturing calves than in the mature animals. All four subsets were significantly higher in fetal and young calf splenic tissues. No significant differences were observed in the distribution of the four subsets in thymuses assayed in this study. An interesting pattern was seen in a longitudinal study of T-cell subsets that showed 7-8 day cyclical changes in CD2 and CD4 marked cells in adult peripheral blood.

Lactation stage-dependent changes in levels of tumor necrosis factor/cachectin in milk

PROBLEM

Determination of lactation stage-dependent changes in levels of tumor neurosis factor (TNF) in milk.

METHOD

Bioassay and immunoblocking assay were used to identify and assay tumor necrosis factor (TNF; mostly TNF alpha) in bovine milk at different stages of lactation.

RESULTS

TNF alpha levels in milk started to increase steadily after the onset of drying-off (weaning/involution), peaked at 4 to 6 wk prior to parturition and precipitously decreased to undetectable levels at parturition (colostrum). Thereafter, TNF alpha reappeared and maintained midlevel concentration in the mature (normal) milk throughout the rest of the lactation cycle. Analysis of cells in mammary secretions by flow cytometry revealed that elevated TNF alpha levels coincided with an increase in macrophages in the secretion from the dry period.

CONCLUSIONS

These lactation stage-dependent changes in TNF alpha levels reflect differential effects that TNF alpha have on involution and prepartum remodeling of the mammary gland of the dam and on gastrointestinal development and immunoregulatory function of the suckling.

Characterization of resting and phorbol ester or concanavalin A activated bovine lymph node cells with leukocyte specific monoclonal antibodies

Bovine lymph node cells (LNC) have been used as a model to study cell activation and proliferation. Because monoclonal antibodies to bovine lymphoid-specific surface antigens have only recently become available, these cells have not been previously characterized in regard to subpopulations. Furthermore, it was not known how expression of lymphoid differentiation antigens and subset proportionalities might change following different modes of activation of LNC. Therefore, the distribution of cell-surface differentiation antigens in unstimulated LNC as well as in LNC incubated with the mitogen concanavalin A (Con A) or the phorbol ester, phorbol dibutyrate (PDBU), was measured using a series of leukocyte-specific monoclonal antibodies and flow cytometry. Unstimulated LNC were found to have similar proportions of T cells, B cells (sIgM positive), and MHC Class II positive cells similar to bovine peripheral blood mononuclear leukocytes (reviewed by Baldwin et al., 1988a). Treatment of the LNC with PDBU or mitogenic doses of Con A induced changes in the expression of surface antigens consistent with the changes observed with human and mouse cells after similar activation. However, these two compounds did not cause identical effects. After treatment with PDBU, the percentage of cells expressing CD4 as well as the density of surface expression decreased. An increase in the percentage of cells expressing and/or density of surface expression of the pan T cell antigens CD2, CD5, CD6, MHC Class II and J5, a T cell activation antigen, also occurred. PDBU treatment also increased the percentage of CD8 positive cells. The change in CD6 following PDBU treatment has not been reported previously. Con A treatment led to a significant increase in the percentage of cells bearing CD8, CD6, MHC Class II and J5, but it had no effect on the percentages of cells positive for the other T cell markers CD5, CD4, or CD2. Because Con A is a complete mitogen and PDBU is not, the changes observed following Con A stimulation probably reflected an expansion of a particular subpopulation. In contrast, PDBU most likely modifies surface antigen expression directly. Neither treatment affected the B cell subpopulation.

Influence of recombinant bovine somatotropin (sometribove) on mononuclear cells during the nonlactating period

Recombinant bST was evaluated as a potential immunoenhancer of bovine peripheral blood and mammary gland mononuclear cells during the nonlactating period. Cows (n = 4 per group) were assigned to one of four treatments: 1) untreated, 2) treated with recombinant bST during lactation only, 3) treated with recombinant bST during the nonlactating period only, and 4) treated with recombinant bST during lactation and the nonlactating period. Recombinant bST treatment during the nonlactating period had no effect on proliferation of bovine blood or mammary gland mononuclear cells in response to stimulation by mitogens or allogeneic cells. Recombinant bST treatment during the nonlactating period enhanced interleukin-2 secretion by mononuclear cells isolated from cows treated also with recombinant bST during lactation. However, recombinant bST treatment during the nonlactating period had little effect on interleukin-2 secretion by mononuclear cells from cows not treated with recombinant bST during lactation. Results of this study suggest that recombinant bST alters effector functions rather than proliferation of bovine mononuclear cells.

Bovine mononuclear leukocyte subpopulations in peripheral blood and mammary gland secretions during lactation

Florescence flow cytometry and monoclonal antibodies were used to analyze the composition of leukocytes from peripheral blood and mammary gland secretions. Samples were obtained from Holstein dairy cows, free of IMI, at six time points during the lactation cycle. The percentage of monocytes in peripheral blood mononuclear cells varied from 15 to 31%; the lowest percentage occurred at the early nonlactation period. The percentage of T lymphocytes from mammary gland secretions varied from 16% during the periparturient period to 62% at late lactation. The B lymphocytes varied from 7% at late lactation to 25% during the periparturient period. Macrophages varied from 21 to 69%; the highest percentage occurred during the periparturient period. The mean ratio of CD4+:CD8+ T lymphocytes in the peripheral blood and mammary gland secretions was 1.53 and .85, respectively. A subpopulation of activated CD8+ T lymphocytes present in mammary gland secretions throughout the lactation cycle coexpressed a new activation molecule, ACT2. Increases in the proportion of CD8+ T lymphocytes were associated with an increase in the percentage of CD8+, ACT2+ T lymphocytes. Activated CD8+ T lymphocytes may play an important role in the regulation and expression of the local immune response to pathogens.

Modulation of bovine mononuclear cell proliferation during physiological transitions of the mammary gland

Mammary secretions and blood were collected from five primiparous Holstein cows 14 d following cessation of milking and 14 d prior to parturition for preparation of serum and mammary secretion skim fractions. Mammary secretions and blood were collected from the same animals 15 to 18 d following cessation of milking and 2 to 13 d prior to parturition for isolation of mononuclear cells. Effects of serum on mammary gland mononuclear cell proliferation and skim fractions from mammary secretions on blood mononuclear cell proliferation were evaluated. Mononuclear cell proliferation was evaluated in a mitogen-induced lymphocyte proliferation assay and in a mixed leukocyte assay. Proliferative responses of blood and mammary gland mononuclear cells did not vary significantly between the two time periods evaluated. Mammary secretion skim fractions obtained at both time periods significantly suppressed blood mononuclear cell proliferation. In contrast, exogenous serum enhanced mammary gland mononuclear cell proliferation in response to mitogens and allogeneic cells. Ability to enhance in vitro proliferation of mammary mononuclear cells isolated during physiological transitions of the mammary gland may suggest the potential for enhancing mammary mononuclear cell proliferation in vivo to reduce incidence of new intramammary infections at times when the mammary gland is highly susceptible.