The sodium iodide symporter is unlikely to be a thyroid/breast shared antigen.

PURPOSE: Anti-thyroid peroxidase (TPO) autoantibodies (TPOAb) seem to be protective for patients with breast cancer (BC). Thyroid and breast tissues both express the sodium iodide symporter (NIS), similarly both have a peroxidase activity, TPO and lactoperoxidase (LPO) respectively. We hypothesize a common immune response to a thyroid/breast shared antigen suggesting three putative mechanisms: (1) TPOAb react to both TPO and LPO, (2) TPO could be expressed in BC and (3) patients with TPOAb could have autoantibodies to NIS (NISAb). Previous studies excluded NISAb that block NIS activity in sera of patients with thyroid autoimmunity (TA) and/or BC. This study investigates neutral NISAb (binding without affecting function). METHODS: Clones of CHO cells stably expressing human NIS (hNIS; CHO-NIS) were isolated following transfection of hNIS in pcDNA3 vector. Expression of hNIS mRNA and surface protein was confirmed by PCR and flow cytometry respectively using a hNIS-mouse-monoclonal-antibody. CHO-NIS and controls transfected with the empty pcDNA3 vector (CHO-Empty) were incubated with 42 heat-inactivated human sera followed by an anti-human-IgG-AlexaFluor488-conjugate: 12 with BC, 11 with TA, 10 with both BC and TA and 9 with non-autoimmune thyroid diseases. The Kolmogorov-Smirnov Test was used to compare the fluorescence intensity obtained with CHO-NIS and CHO-Empty, using sera from six young males as a negative control population. RESULTS: None of the 42 sera were positive for NISAb. CONCLUSIONS: NISAb are rare and NIS is unlikely to be a common thyroid/BC shared antigen. We have recently demonstrated TPO expression in BC tissue and are currently investigating TPOAb cross-reactivity with TPO/LPO.

[Immune stimulative potency of milk proteins]. / Immunostymulacyjny potencjal bialek mleka.

Milk proteins are characterized by the highest immune stimulative potency from among all the proteins present in human diet. Whey proteins and numerous growth factors that regulate insulin secretion, differentiation of intestine epithelium cells, and also tissue restoration, are priceless in stimulation the immune system. Lactoferrin shows the most comprehensive pro-health properties: antioxidative, anticancer, immune stimulative and even chemopreventive. Also peptides and amino acids formed from casein and whey proteins possess immune stimulative activity. The most valuable proteins, i.e. lactoferrin, immune globulins, lactoperoxidase and lisozyme, together with bioactive peptides, are resistant to pepsin and trypsin activity. This is why they maintain their exceptional biological activity within human organism. Properly high consumption of milk proteins conditions correct function of immune system, especially at children and elderly persons.

Perinatal lamb model of respiratory syncytial virus (RSV) infection.

Respiratory syncytial virus (RSV) is the most frequent cause of bronchiolitis in infants and children worldwide. Many animal models are used to study RSV, but most studies investigate disease in adult animals which does not address the unique physiology and immunology that makes infants more susceptible. The perinatal (preterm and term) lamb is a useful model of infant RSV disease as lambs have similar pulmonary structure including airway branching, Clara and type II cells, submucosal glands and Duox/lactoperoxidase (LPO) oxidative system, and prenatal alveologenesis. Lambs can be born preterm (90% gestation) and survive for experimentation although both preterm and term lambs are susceptible to ovine, bovine and human strains of RSV and develop clinical symptoms including fever, tachypnea, and malaise as well as mild to moderate gross and histologic lesions including bronchiolitis with epithelial injury, neutrophil infiltration and syncytial cell formation. RSV disease in preterm lambs is more severe than in term lambs; disease is progressively less in adults and age-dependent susceptibility is a feature similar to humans. Innate and adaptive immune responses by perinatal lambs closely parallel those of infants. The model is used to test therapeutic regimens, risk factors such as maternal ethanol consumption, and formalin inactivated RSV vaccines.

Quantitative salivary proteomic differences in oral chronic graft-versus-host disease.

PURPOSE: Chronic graft-versus-host disease (cGVHD) is a severe immunological complication that occurs after allogeneic hematopoietic stem cell transplantation (HSCT). Although oral cGVHD occurs in >25% of cGVHD patients and leads to decreased quality of life, its etiology is poorly understood. The present retrospective cross-sectional analysis of oral cGVHD patients sought to (1) test the feasibility of liquid chromatography tandem mass spectrometry (LC-MS/MS) to identify protein biomarkers of oral cGVHD and (2) to gain a clearer understanding of salivary proteins impacted by oral cGVHD. METHODS: Using unstimulated whole saliva, we compared pooled saliva from five patients with a diagnosis of moderate or severe oral cGVHD, with a gender-and age- matched pool of five cGVHD patients with no oral mucosal findings. LC-MS/MS was used to identify salivary proteins, followed by Ingenuity Pathway Analysis (IPA). Selected mass spectrometric findings, including lactotransferrin, lactoperoxidase, and albumin, were confirmed by targeted label-free quantification. RESULTS: LC-MS/MS led to confident identification of 180 proteins. Of these proteins, 102 changed in abundance at least 2 fold, including 12 proteins identified only in the No oral cGVHD group. Downregulation of ~0.4 fold was confirmed for both lactotransferrin and lactoperoxidase in Oral cGVHD saliva using targeted label-free quantification. IPA analysis implicated pathways involved in cellular metabolism and immunoregulation. CONCLUSIONS: Reduction of salivary lactoperoxidase, lactotransferrin, and several cysteine proteinase inhibitor family proteins suggests impaired oral antimicrobial host immunity in cGVHD patients. This shotgun proteomic analysis of oral cGVHD saliva using targeted label-free quantification of select proteins supports the use of mass spectrometry for future validation in a large patient population as noninvasive tests for screening, early detection, and monitoring of cGVHD.

Oxidative epithelial host defense is regulated by infectious and inflammatory stimuli.

Epithelia express oxidative antimicrobial protection that uses lactoperoxidase (LPO), hydrogen peroxide (H(2)O(2)), and thiocyanate to generate the reactive hypothiocyanite. Duox1 and Duox2, found in epithelia, are hypothesized to provide H(2)O(2) for use by LPO. To investigate the regulation of oxidative LPO-mediated host defense by bacterial and inflammatory stimuli, LPO and Duox mRNA were followed in differentiated primary human airway epithelial cells challenged with Pseudomonas aeruginosa flagellin or IFN-gamma. Flagellin upregulated Duox2 mRNA 20-fold, but upregulated LPO mRNA only 2.5-fold. IFN-gamma increased Duox2 mRNA 127-fold and upregulated LPO mRNA 10-fold. DuoxA2, needed for Duox2 activity, was also upregulated by flagellin and IFN-gamma. Both stimuli increased H(2)O(2) synthesis and LPO-dependent killing of P. aeruginosa. Reduction of Duox1 by siRNA showed little effect on basal H(2)O(2) production, whereas Duox2 siRNA markedly reduced basal H(2)O(2) production and resulted in an 8-fold increase in Nox4 mRNA. In conclusion, large increases in Duox2-mediated H(2)O(2) production seem to be coordinated with increases in LPO mRNA and, without increased LPO, H(2)O(2) levels in airway secretion are expected to increase substantially. The data suggest that Duox2 is the major contributor to basal H(2)O(2) synthesis despite the presence of greater amounts of Duox1.

Redox warfare between airway epithelial cells and Pseudomonas: dual oxidase versus pyocyanin.

The importance of reactive oxygen species-dependent microbial killing by the phagocytic cell NADPH oxidase has been appreciated for some time, although only recently has an appreciation developed for the partnership of lactoperoxidase with related dual oxidases (Duox) within secretions of the airway surface layer. This system produces mild oxidants designed for extracellular killing that are effective against several airway pathogens, including Staphylococcus aureus, Burkholderia cepacia, and Pseudomonas aeruginosa. Establishment of chronic pseudomonas infections involves adaptations to resist oxidant-dependent killing by expression of a redox-active virulence factor, pyocyanin, that competitively inhibits epithelial Duox activity by consuming intracellular NADPH and producing superoxide, thereby inflicting oxidative stress on the host.

The gene encoding lactoperoxidase is expressed in epithelial cells of the goat lactating mammary gland.

The localization of lactoperoxidase (LP), which catalyzes in milk the peroxidation of endogenous thiocyanate in the presence of peroxide, was investigated in the goat lactating mammary gland, using immunofluorescence and hybridization techniques. In situ hybridization experiments have demonstrated the presence of LP mRNA within the cytoplasm of alveolar epithelial cells (acini) where LP has been detected by immunofluorescence labelling with anti-LP polyclonal antibodies. Taken together, these data provide the first direct evidence for expression of the LP gene within secretory cells of the lactating mammary gland.

Thyroid microsomal/thyroid peroxidase autoantibodies show discrete patterns of cross-reactivity to myeloperoxidase, lactoperoxidase and horseradish peroxidase.

The recent cloning of the thyroid peroxidase (TPO) has shown that it is identical to the thyroid microsomal antigen (TMA), a potent antigen involved in autoimmune thyroid disease (ATD), which shares significant sequence homology with myeloperoxidase. The present study shows that autoantibodies (aAb) to the TMA/TPO antigen cross-react with human leucocyte myeloperoxidase, bovine lactoperoxidase and horseradish peroxidase. Cross-reactivity to myeloperoxidase was only apparent by ELISA using reduced and alkylated antigen preparations or by immunoblotting following denaturation with SDS. Sequential absorption of sera on SDS-denatured thyroid microsomes immobilized on Sepharose-4B followed by absorption on native microsomes removed all aAb specificities to TMA/TPO and the three peroxidase preparations, giving compelling evidence on the genuine cross-reactive nature of these aAbs. Sera from different patients contain different qualitative and quantitative specificities of aAb to the TMA/TPO antigen, confirming the polyclonal nature of this autoimmune response.

Immunological characterization of soluble peroxidases from rat tissues including preputial gland.

A highly active soluble peroxidase has been identified in the preputial gland of rats and characterized immunologically along with other soluble peroxidases of a number of rat tissues such as submaxillary gland, exorbital lacrimal gland and also of the uterine fluid of the estrogen treated rats. All these peroxidases have the native molecular weight around 73K as determined by gel filtration on Sephadex G-150. An antiserum raised against the pure bovine lactoperoxidase interacts with all these soluble peroxidases and immunoprecipitates the enzyme activity in a similar fashion when titrated against varied concentration of the antiserum. Following electrophoretic transfer to nitrocellulose by Western blotting, the antiserum crossreacts with the preputial, submaxillary and lacrimal gland protein of molecular weight around 73K and with the uterine fluid protein of molecular weight of 80K. An additional crossreacting protein of molecular weight of 80K is also evident in the lacrimal gland. All these enzyme preparations, however, contain another immunoreactive protein of molecular weight of about 64K. While 73-80K molecular weight interacting proteins may represent different forms of peroxidase, presumably with varied carbohydrate moieties, 64K molecular weight protein may be a precursor of the peroxidase which after posttranslational modification such as heme conjugation and glycosylation leads to formation of native enzyme. Rat harderian gland, unlike bovine origin, does not contain any detectable peroxidase activity.(ABSTRACT TRUNCATED AT 250 WORDS)

In-vitro cytolysis of myeloma tumor cells with glucose oxidase and lactoperoxidase antibody conjugates.

We have assessed the tumoricidal potential of enzyme-antibody conjugates on murine myeloma cells. Conjugates of glucose oxidase (EC 1.1.3.4) and lactoperoxidase (EC 1.11.1.7) were specifically targeted on the NSO tumor cells. Optimal conditions for tumor cell killing, as assayed by [51Cr] release required the binding of both antibody conjugates to the cell membrane. This is followed by washing and incubation in medium containing glucose and 0.1 mM iodide. Under these conditions 90% of the incorporated [51Cr] labeled is released from the cells, and NSO clonogenicity is reduced by a factor greater than 5 logs by 2 h of incubation.

Immunological relationship between peroxidases in eosinophils, uterus and other tissues of the rat.

A rabbit antibody against purified pig intestinal peroxidase was shown by means of Western blotting and immunodetection to bind to peroxidases in various rat tissues, including eosinophils, uterus, uterine fluid and mammary tumours, and also to bind to bovine lactoperoxidase. The peroxidase in all rat tissues had an Mr of 53 000, except for uterine fluid, in which the cross-reacting band had an Mr of 80 000. The results indicate that while some of the peroxidase present in uterine tissue could be derived from eosinophils, the enzyme secreted into the lumen of the uterus is likely to have a different origin. They also suggest that mammary tumour peroxidase could originate from infiltration by eosinophils.