Lycopene abolishes palmitate-mediated myocardial inflammation in female Wistar rats via modulation of lipid metabolism, NF-κB signalling pathway, and augmenting the antioxidant systems.

BACKGROUND AND AIMS: Obesity-related heart failure is exacerbated by excessive intake of saturated fats such as palmitate (PA). Lycopene (LYC) possesses anti-lipidemic, antioxidant, cytoprotective, and anti-inflammatory effects. This study, therefore, evaluated the impact of LYC against PA-invoked cardiotoxicity. METHODS AND RESULTS: Thirty-six female rats were equally divided into six groups: control; PA (5 mM); PA + LYC (24 mg/kg); PA + LYC (48 mg/kg); LYC (24 mg/kg); and LYC (48 mg/kg). The PA was administered five times weekly for seven weeks, while the LYC was given for the last two weeks. Lipids in the blood and the heart were estimated, as were oxidative stress and antioxidant indices, cardiac function, inflammation, and histology. Palmitate overload occasioned a significant (p < 0.05) increase in cardiac cholesterol (50%), phospholipids (19%), and non-esterified fatty acids (40%). However, triglyceride levels decreased (38%). Furthermore, malondialdehyde (45%), hydrogen peroxide (33%) levels and myeloperoxidase activity increased (79%). Also, cardiac gamma-glutamyl transferase (50%), serum creatine kinase activities (1.34 folds), NF-kB, interleukin1ß, and interleukin-6 mRNA expression increased in the PA group relative to the control. In contrast, reduced glutathione (13%) and nitric oxide levels (22%), interleukin-10 mRNA expression, cardiac creatine kinase (35%), lactate dehydrogenase (33%), aspartate, and alanine transaminase activities decreased markedly (15- and 10%, respectively). Also, PA caused hyperemia, congestion of the cardiac interstitium, and infiltration of inflammatory cells. However, treatment with LYC reversed the features of cardiotoxicity and histological complications caused by PA. These observations are likely because LYC has anti-inflammatory, antioxidant, and cytoprotective properties. CONCLUSION: Thus, LYC might be an appropriate remedy to manage PA-induced cardiotoxicity in female rats.

Blood serum acute phase proteins and iron dynamics during acute phase response of Salmonella enterica serotype Dublin experimentally infected buffalo calves.

The study aimed to evaluate clinical signs, blood serum acute phase proteins (APP) and iron dynamics during the acute phase response (APR) of Salmonella Dublin experimentally infected Murrah buffalo calves. Six buffalo calves constituted the control group (CNT) and six were orally inoculate with 108 CFU of S. Dublin (INF). Clinical evaluation was performed, rectal swabs to detect S. Dublin strains were collected and venous blood was sampled before and throughout seven days after inoculation. The APP fractions ß-haptoglobin, α-haptoglobin, ceruloplasmin and transferrin were analyzed by 1-D and 2-D electrophoresis. Proteins were identified using LC/ESI-MS/MS and NCBI database. Plasma fibrinogen, serum iron and serum haptoglobin concentrations were measured. The inoculation of 108 CFU of S. Dublin was effective in inducing clinical signs of Salmonellosis, such as hyperthermia and diarrhea. 1-DE showed that ß and α-haptoglobin increased 204% (p = 0.008) and 184% (p = 0.022) 48 h after inoculation (HAI), respectively, with highest concentrations 120 HAI (498% increased, p = 0.012; 431% increased, p = 0.011) and 168 HAI (492% increased, p = 0.019; 523% increased, p = 0.028). 2-DE showed that the expression of two spots, identified as ß-haptoglobin, were increased 693% (p = 0.0006) and 580% (p = 0.0003) 168 HAI, respectively, while one spot, identified as α-haptoglobin, increased 714% (p = 0.040). Haptoglobin concentrations increased 1339% (p < 0.0001) 168 HAI. 1-DE showed that ceruloplasmin increased 42% (p = 0.034) 48 HAI, with highest concentration 120 HAI (133% increased, p = 0.022). 2-DE showed that the expression of two spots, identified as ceruloplasmin, were increased 218% (p = 0.0153) and 85% (p = 0.0143) 168 HAI, respectively. Fibrinogen increased 78% (p = 0.012) 96 HAI, with highest concentration 120 HAI (increased 114%, p = 0.002). Iron decreased 33% 24 HAI (p = 0.015) and 37% 72 HAI (p = 0.029), and began to be restored 96 HAI. 1-DE showed that transferrin decreased 23% 120 HAI (p = 0.047), and that values were restored 168 HAI. 2-DE showed that expression patterns of transferrin comparing 0 h and 168 HAI were similar, evidencing that values were restored 168 HAI. In conclusion, the inoculation of 108 CFU was effective in inducing hyperthermia and diahrrea. ß and α-haptoglobin, ceruloplasmin and fibrinogen worked as positive APP during the APR to S. Dublin infection and are potential biomarker candidates. Concentrations of iron and transferrin decreased during the infection, highlighting the fact that mechanisms for restricting iron availability are part of the APR triggered against S. Dublin infection in buffalo calves.

Reference 1D and 2D electrophoresis maps for potential disease related proteins in milk whey from lactating buffaloes and blood serum from buffalo calves (Water buffalo, Bubalus bubalis).

The aim of this study was to identify potential disease related proteins in milk whey of lactating buffaloes and blood serum of buffalo calves, in order to define a reference electrophoresis map for 1-DE and 2-DE. Additionally, changes in some protein patterns from buffalo calves during salmonellosis and lactating buffaloes during mastitis are presented. Milk samples were collected and distributed into groups: Milk samples from healthy buffaloes (SCC < 100.000 cells/ml, negative microbiology and CMT) (G1, n = 5) and buffaloes with subclinical mastitis (SCC > 500.000 cells/ml, positive microbiology and CMT) (G2, n = 5). Blood samples from buffalo calves (n = 6) were collected, and three calves were experimentally infected with Salmonella Dublin and samples analyzed before (M0) and 72 h after inoculation (M1). 1-DE was accomplished by loading 10 µg of TP into SDS-PAGE, stained with Coomassie blue. 2-DE was accomplished by loading 200 µg of TP into 11 cm, pH 3-10 non-linear IPG strips, followed by SDS-PAGE, stained with Coomassie blue. Protein bands/spots were excised, subjected to tryptic in-gel digestion and analyzed by LC/ESI-MS/MS. Protein identity was assigned using NCBI databases. After bands/spots from 1-DE and 2-DE were analyzed, a protein map with 35 and 40 different identified proteins in blood serum and milk whey, respectively, was generated. Significant changes in patterns of haptoglobin were observed in buffalo calves with salmonellosis and in patterns of IgLC, ß-lactoglobulin and α-lactalbumin of lactating buffaloes during mastitis. The establishment of a protein map for 1-DE and 2-DE, identifying potential disease related proteins, can help to address alterations during diseases in buffaloes.

Early post parturient changes in milk acute phase proteins.

The periparturient period is one of the most critical periods in the productive life of a dairy cow, and is the period when dairy cows are most susceptible to developing new intramammary infections (IMI) leading to mastitis. Acute phase proteins (APP) such as haptoglobin (Hp), mammary associated serum amyloid A3 (M-SAA3) and C-reactive protein (CRP) have been detected in milk during mastitis but their presence in colostrum and milk in the immediate postpartum period has had limited investigation. The hypothesis was tested that APP are a constituent of colostrum and milk during this period. Enzyme linked immunosorbent assays (ELISAs) were used to determine each APP's concentration in colostrum and milk collected daily from the first to tenth day following calving in 22 Holstein-Friesian dairy cows. Haptoglobin was assessed in individual quarters and composite milk samples while M-SAA3 and CRP concentration were determined in composite milk samples. Change in Hp in relation to the high abundance proteins during the transition from colostrum to milk were evaluated by 1 and 2 dimension electrophoresis and western blot. In 80% of the cows all APPs were detected in colostrum on the first day following parturition at moderately high levels but gradually decreased to minimal values in the milk by the 6th day after calving. The remaining cows (20%) showed different patterns in the daily milk APP concentrations and when an elevated level is detected could reflect the presence of IMI. Demonstration that APP are present in colostrum and milk following parturition but fall to low levels within 4 days means that elevated APP after this time could be biomarkers of post parturient mastitis allowing early intervention to reduce disease on dairy farms.

Mastitomics, the integrated omics of bovine milk in an experimental model of Streptococcus uberis mastitis: 2. Label-free relative quantitative proteomics.

Mastitis, inflammation of the mammary gland, is the most common and costly disease of dairy cattle in the western world. It is primarily caused by bacteria, with Streptococcus uberis as one of the most prevalent causative agents. To characterize the proteome during Streptococcus uberis mastitis, an experimentally induced model of intramammary infection was used. Milk whey samples obtained from 6 cows at 6 time points were processed using label-free relative quantitative proteomics. This proteomic analysis complements clinical, bacteriological and immunological studies as well as peptidomic and metabolomic analysis of the same challenge model. A total of 2552 non-redundant bovine peptides were identified, and from these, 570 bovine proteins were quantified. Hierarchical cluster analysis and principal component analysis showed clear clustering of results by stage of infection, with similarities between pre-infection and resolution stages (0 and 312 h post challenge), early infection stages (36 and 42 h post challenge) and late infection stages (57 and 81 h post challenge). Ingenuity pathway analysis identified upregulation of acute phase protein pathways over the course of infection, with dominance of different acute phase proteins at different time points based on differential expression analysis. Antimicrobial peptides, notably cathelicidins and peptidoglycan recognition protein, were upregulated at all time points post challenge and peaked at 57 h, which coincided with 10 000-fold decrease in average bacterial counts. The integration of clinical, bacteriological, immunological and quantitative proteomics and other-omic data provides a more detailed systems level view of the host response to mastitis than has been achieved previously.

Effect of pre-analytical treatments on bovine milk acute phase proteins.

BACKGROUND: Samples for diagnostic procedures often require some form of pre-analytical preparation for preservation or safe handling during transportation prior to analysis in the laboratory. This is particularly important for milk samples which frequently need preservatives to retain milk composition as close to that found in freshly collected samples as possible. METHODS: Milk samples were treated by heating at 56 °C for 30 min or preserved by addition of either potassium dichromate or bronopol respectively. Haptoglobin (Hp), mammary associated serum amyloid A3 (M-SAA3) and C-reactive protein (CRP) were measured in the various treatment groups and in control samples which were not treated, using enzyme linked immunoassays. The concentrations of each APP were compared between treated and non-treated groups using the Wilcoxon signed ranks tests. RESULTS: Heat treatment of samples was found to have a significant lowering effect on milk M-SAA3 and CRP but not Hp. The use of potassium dichromate and bronopol as preservatives in milk had no significant effects on milk Hp and M-SAA3 concentration but lowered milk CRP values compared to controls. CONCLUSIONS: The observed effects of heating and preservative use on milk APP should be taken into consideration when assaying samples which have undergone heat treatment as a result of international transfer regulations involving biological samples or samples needing chemical preservation prior to transport to laboratory.