The immune response of tilapia Oreochromis mossambicus and its susceptibility to Streptococcus iniae under stress in low and high temperatures

Mozambique tilapia Oreochromis mossambicus acclimated to 27 degrees C were then held at 19, 23, 27 (control), 31 and 35 degrees C, and were examined for non-specific cellular and humoral responses after 12-96 h. Total leucocyte count decreased significantly when fish were transferred to 19 and 23 degrees C after 48 and 96 h, and when transferred to 35 degrees C over 12-96 h, respectively. Respiratory burst decreased significantly when fish were transferred to 19, 31 and 35 degrees C over 24-96 h, whereas phagocytic activity and phagocytic index decreased significantly when fish were transferred to low temperatures (19 and 23 degrees C) and high temperatures (31 and 35 degrees C) over 12-96 h. Lysozyme activity decreased significantly when fish were transferred to 19 degrees C after 12-96 h, but increased significantly when transferred to 31 and 35 degrees C over 48-96 h. Alternative complement pathway (ACH(50)) also decreased significantly when transferred to 19 and 23 degrees C after 12h, but increased significantly when transferred to 31 and 35 degrees C after 24h. In another experiment, tilapia reared at 27 degrees C were injected intraperitoneally with Streptococcus iniae at a dose of 1 x 10(7)colony-forming units (cfu)fish(-1), and then reared onward at water temperatures of 19, 23, 27 (control), 31 and 35 degrees C. Over 48-168 h, the cumulative mortality of S. iniae-injected fish held in 19 and 35 degrees C was significantly higher than that of injected-fish held in 23, 27 and 31 degrees C. It is concluded that transfer of tilapia O. mossambicus from 27 degrees C to low temperatures (19 and 23 degrees C) after 12h, and transfer of fish from 27 degrees C to high temperatures (31 and 35 degrees C) reduced their immune capability. Moreover, tilapia under temperature stress at 19 and 35 degrees C from 27 degrees C decreased its resistance against S. iniae.     

Quorum-Quenching Activity of the AHL-Lactonase from Bacillus licheniformis DAHB1 Inhibits Vibrio Biofilm Formation In Vitro and Reduces Shrimp Intestinal Colonisation and Mortality

Vibrio parahaemolyticus is a significant cause of gastroenteritis resulting from the consumption of undercooked sea foods and often cause significant infections in shrimp aquaculture. Vibrio virulence is associated with biofilm formation and is regulated by N-acylated homoserine lactone (AHL)-mediated quorum sensing. In an attempt to reduce vibrio colonisation of shrimps and mortality, we screened native intestinal bacilli from Indian white shrimps (Fenneropenaeus indicus) for an isolate which showed biofilm-inhibitory activity (quorum quenching) against the pathogen V. parahaemolyticus DAHP1. The AHL-lactonase (AiiA) expressed by one of these, Bacillus licheniformis DAHB1, was characterised as having a broad-spectrum AHL substrate specificity and intrinsic resistance to the acid conditions of the shrimp intestine. Purified recombinant AiiA inhibited vibrio biofilm development in a cover slip assay and significantly attenuated infection and mortality in shrimps reared in a recirculation aquaculture system. Investigation of intestinal samples also showed that AiiA treatment also reduced vibrio viable counts and biofilm development as determined by confocal laser scanning microscopy (CLSM) imaging. These findings suggest that the B. licheniformis DAHB1 quorum-quenching AiiA might be developed for use as a prophylactic treatment to inhibit or reduce vibrio colonisation and mortality of shrimps in aquaculture.     

RpoN gene,RAPD profile,antimicrobial resistance and plasmids of Vibrio anguillarum isolates from vibriosis infected Penaeus monodon

Aim: To evaluate the diversity of Vibrio anguillarum isolates from vibriosis‐infected Penaeus monodon collected from east coast of India. Methods and Results: Thirty‐six V. anguillarum were cultured from specific V. anguillarum medium, further identified using biochemical tests and confirmed by PCR detection of rpoN gene. Randomly amplified polymorphic DNA analysis revealed that in each location, the selected V. anguillarum isolates produced a unique band pattern, indicating that the members of this species are genetically heterogeneous. Antibiotic sensitivity results showed that 85%, 72%, 70%, 58%, 45% and 34% of the isolates were resistant to erythromycin, furazolidone, chloramphenicol, oxolinic acid, ciprofloxacin and nitrofurantoin, respectively. Plasmids were found in 70% of the isolates, and nine different plasmid profiles were observed. Conclusions: Wide ranges of diversity were noted in V. anguillarum isolates collected from P. monodon at different locations of east coast of India. Significance and Impact of the Study: Molecular typing, antibiotic resistance and plasmid profiles of V. anguillarum isolates from shrimp in India enables the prediction of possible risk for diseases in shrimp culture environment and the application of alternative management plans to prevent further spread of antibiotic resistance.     

Effect of Copper on Morphology, Weight, and Chromosomal Aberrations in the Spiny Lobster, Panulirus homarus (Linnaeus, 1758)

Spiny lobster Panulirus homarus which had been exposed to cupric ion at 9.55 and 19.1?μg/l for 28?days was examined for sub-lethal effects including morphology, wet weight, and induced genotoxic effect on the chromosome. Following cupric exposure, the color of lobster P. homarus changed from yellowish-brown to greenish black in the hepatopancreas, changed from normal creamy white to yellowish white in the muscle, and changed to greenish black in the gill. A significant change in the percentage of wet weight of muscle (28.70?±?0.41-23.47?±?0.45), hepatopancreas (4.03?±?0.12-2.63?±?0.17), and gills (3.63?±?0.45-3.87?±?0.12) were observed in the copper-treated lobsters. The diploid number of chromosomes of P. homarus was over 200 metaphases from ten lobsters, as 2n?=?58, and consisted of 16 acrocentric, seven metacentric, and six sub-metacentric chromosomes. The lobsters exposed to cupric ion at 9.55 and 19.1?μg/l showed different types of chromosomal aberrations such as centromeric gaps, chromatid breaks, centromeric fusion, stickiness, ring chromosomes, and acrocentric association region. The frequency of aberrations increased with duration of exposure. In conclusion, it was suggested that cupric ion interacts with the spindle formation and consequently distorts the normal karyomorphology, indicating cytogenetic effect on lobster.     

Control of pathogenic Vibrio spp. by Bacillus subtilis BT23, a possible probiotic treatment for black tiger shrimp Penaeus monodon

AIMS: The present study evaluated the in vitro and in vivo antagonistic effect of Bacillus against the pathogenic vibrios. METHODS AND RESULTS: Cell-free extracts of Bacillus subtilis BT23 showed greater inhibitory effects against the growth of Vibrio harveyi isolated by agar antagonism assay from Penaeus monodon with black gill disease. The probiotic effect of Bacillus was tested by exposing shrimp to B. subtilis BT23 at a density of 106-108 cfu ml-1 for 6 d before a challenge with V. harveyi at 103-104 cfu ml-1 for 1 h infection. The combined results of long- and short-term probiotic treatment of B. subtilis BT23 showed a 90% reduction in accumulated mortality. CONCLUSIONS: This study reports that pathogenic vibrios were controlled by Bacillus under in vitro and in vivo conditions. SIGNIFICANCE AND IMPACT OF THE STUDY: Results indicated that probiotic treatment offers a promising alternative to the use of antibiotics in shrimp aquaculture.     

High synergistic antibacterial,antibiofilm, antidiabetic and antimetabolic activity of Withania somnifera leaf extract-assisted zinc oxide nanoparticle

Nanotechnology is currently gaining immense attention to combat food borne bacteria, and biofilm. Diabetes is a common metabolic disease affecting majority of people. A better therapy relies on phytomediated nanoparticle synthesis. In this study, W. somnifera leaf extract-assisted ZnO NPs (Ws-ZnO NPs) was synthesized and characterized. From HR-TEM analysis, it has been found that the hexagonal wurtzite particle is 15.6 nm in size and − 12.14 mV of zeta potential. A greater antibacterial effect of Ws-ZnO NPs was noticed against E. faecalis and S. aureus at 100 µg mL⁻¹. Also, the biofilm of E. faecalis and S. aureus was greatly inhibited at 100 µg mL⁻¹ compared to E. coli and P. aeruginosa. The activity of α-amylase and α-glucosidase enzyme was inhibited at 100 µg mL⁻¹ demonstrating its antidiabetic potential. The larval and pupal development was delayed at 25 µg mL⁻¹ of Ws-ZnO NPs. A complete mortality (100%) was recorded at 25 µg mL⁻¹. Ws-ZnO NPs showed least LC₅₀ value (9.65 µg mL⁻¹) compared to the uncoated ZnO NPs (38.8 µg mL⁻¹) and leaf extract (13.06 µg mL⁻¹). Therefore, it is concluded that Ws-ZnO NPs are promising to be used as effective antimicrobials, antidiabetic and insecticides to combat storage pests.