Normal platelet function is dependent on the ability of integrin alpha IIb beta 3 (glycoprotein IIb/IIIa) to interact with components of the subendothelial matrix, such as fibronectin (Fn), exposed at sites of vascular injury. Studies using synthetic peptides derived from human Fn sequences Asp(1373)--Thr(1383) and Arg(1493)--Asp(1495) have suggested a role for both the 9th (3fn9) and 10th (3fn10) type III repeats of this ligand in binding to alpha IIb beta 3. In this study, we have taken a charge-to-alanine mutagenesis approach to evaluate the importance of these sites, and other charged residues, within the context of recombinant 3fn9--10 modules for binding to alpha IIb beta 3. To identify residues that are involved in Fn binding to alpha IIb beta 3, recombinantly expressed 3fn9--10 module pairs with alanine substitutions introduced into each of the 38 charged residues were individually assayed for the ability to inhibit Fn binding to purified alpha IIb beta 3. Substitutions at Fn residues Arg(1493) and Asp(1495) of the RGD sequence were found to have the greatest effect on alpha IIb beta 3 binding, as expected. However, Fn residues Arg(1369), Arg(1371), Arg(1379), Arg(1445), and Arg(1448) were needed for optimal interaction of the 3fn9--10 module pair with alpha IIb beta 3. All Fn residues found to affect binding of 3fn9--10 to alpha IIb beta 3 are located on the same face and extend from the surface of the molecule. Additionally, the epitopes for two anti-Fn monoclonal antibodies that inhibit binding of this ligand to alpha IIb beta 3 were found to overlap the sites identified. These results demonstrate that alpha IIb beta 3--Fn binding involves multiple electrostatic interactions.
Mastitis is one of the most prevalent diseases of cattle. Various studies have reported breed-dependent differences in the risk for developing this disease. Among two major breeds, Jersey cows have been identified as having a lower prevalence of mastitis than Holstein cows. It is well established that the nature of the initial innate immune response to infection influences the ability of the host to clear harmful bacterial pathogens. Whether differences in the innate immune response to intramammary infections explain, in part, the differential prevalence of mastitis in Holstein and Jersey cows remains unknown. The objective of the current study was to evaluate several parameters of the innate immune response of Holstein and Jersey cows to intramammary infection with Staphylococcus aureus, a common mastitis-inducing pathogen. To control for non-breed related factors that could influence these parameters, all cows were of the same parity, in similar stages of milk production, housed and managed under identical conditions, and experimentally infected and sampled in parallel. The following parameters of the innate immune response were evaluated: acute phase protein synthesis of serum amyloid A and lipopolysaccharide-binding protein; total and differential circulating white blood cell counts; milk somatic cell counts; mammary vascular permeability; milk N-acetyl-beta-d-glucosaminidase (NAGase) activity; and production of the cytokines, interferon (IFN)-gamma, interleukin (IL)-12, tumour growth factor(TGF)-alpha, and TGF-beta1. The temporal response of all of these parameters following infection was similar between Holstein and Jersey cows. Further, with the exception of changes in circulating neutrophils and NAGase activity, the overall magnitude of these parameters were also comparable. Together, these data demonstrate that the innate immune response of Holstein and Jersey cows to Staph. aureus intramammary infection remains highly conserved despite previously reported differences in mastitis prevalence, as well as genotypic and phenotypic traits, that exist between the two breeds.
Perchlorate has been detected in U.S. milk samples from many different states. Applying data from a recently reported 9-week experiment in which 16 Holstein dairy cows were administered perchlorate allowed us to derive an equation for the dose-response relationship between perchlorate concentrations in feed/drinking water and its appearance in milk. Examination of background concentrations of perchlorate in the total mixed ration (TMR) fed in addition to the variable dose supplied to treated cows as a ruminal infusate revealed that cows receive significant and variable exposure to perchlorate from the TMR. Weekly examination of the TMR disclosed that a change in ingredients midway through the experiment caused a significant (78%) change in TMR perchlorate concentration. Analyses of the ingredients comprising the TMR revealed that 41.9% of the perchlorate came from corn silage, 22.9% came from alfalfa hay and 11.7% was supplied by sudan grass. Finally, USDA Food and Nutrition Survey data on fluid milk consumption were used to predict potential human exposure from milk that contained concentrations of perchlorate observed in our previous dosing study. The study suggests that reducing perchlorate concentration in dairy feed may reduce perchlorate concentrations in milk as well as the potential to reduce human exposure to perchlorate in milk.
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