The Eriocheir sinensis calcium/calmodulin-dependent protein kinase II activates apoptosis to resist Spiroplasma eriocheiris infection.

Calcium/calmodulin-dependent protein kinase II is a downstream mediator of calcium signalling and participates in the regulation of various cellular physiological functions. In previous studies, the expression of Eriocheir sinensis CaMKII (EsCaMKII) was significantly decreased in the thoracic ganglion after Spiroplasma eriocheiris infection, as shown using TMT-based quantitative proteomic analysis; however, the specific functions of EsCaMKII are still unclear. In this study, the full-length cDNA of EsCaMKII was 3314 bp long, consisting of a 1605 bp open reading frame encoding a protein of 535 amino acids, including a 258 aa serine/threonine protein kinase catalytic domain (EsCaMKII-CD). EsCaMKII is highly transcribed in haemocytes, nerves (thoracic ganglion), gills, and muscles, but lowly transcribed in the hepatopancreas, heart, and intestines. The transcription levels of EsCaMKII were altered in E. sinensis haemocytes after S. eriocheiris infection. After the over-expression of EsCaMKII-CD in RAW264.7 cells, the apoptosis rate of RAW264.7 cells was significantly increased. After the over-expression of EsCaMKII-CD, the morphology of RAW264.7 cells became worse after being infected with S. eriocheiris. Meanwhile, the copy number of S. eriocheiris in RAW264.7 cells was significantly decreased. From 48 h to 96 h after EsCaMKII RNA interference, the transcription levels of EsCaMKII decreased significantly. The transcription of apoptosis genes and cell apoptosis were also inhibited in haemocytes after EsCaMKII RNAi. The knockdown of EsCaMKII by RNAi resulted in significant increases in the copy number of S. eriocheiris and in the mortality of crabs during S. eriocheiris infection. These results indicate that EsCaMKII could promote the apoptosis of E. sinensis and enhance its ability to resist S. eriocheiris infection.

Toxicity of avermectin to Eriocheir sinensis and the isolation of a avermectin-degrading bacterium, Ochrobactrum sp. AVM-2.

Avermectin is widely used in the prevention and treatment of parasites diseases in aquaculture. However, the residual avermectin has a serious impact on the growth and quality of aquatic animals including Eriocheir sinensis. This study shows that the LC50 of avermectin to E. sinensis for 24, 48, 72 and 96 h was 21.88, 13.40, 9.11 and 7.10 mg/L, respectively. After avermectin stress, the activities of superoxide dismutase (SOD), catalase (CAT) and phenol oxidase (PO) in the hepatopancreas of E. sinensis increased and reached the peak on the 6th day. The content of malondialdehyde (MDA) accumulated with the increase of exposure time and concentration of avermectin. After 15 days of avermectin exposure, hepatopancreas was damaged seriously. These results indicated that avermectin had toxicity to E. sinensis. In order to solve the pollution problem caused by residual avermectin, a degrading bacterium AVM-2 was separated from the sediment of E. sinensis breeding pond. The strain was confirmed to be Ochrobactrum sp by morphology observation, physiological and biochemical identification and 16 S rDNA sequences analysis. When the pH value was 7, the temperature was 30 â„ƒ, the concentration of substrate was low, the quantity of inoculation was high, Ochrobactrum sp. AVM-2 had better degradation effect on avermectin. When the addition of Ochrobactrum sp. AVM-2 was 2.34 × 108 CFU/L, the residual avermectin in muscle and hepatopancreatine significantly decreased, and the degradation rate was about 66%. In summary, Ochrobactrum sp. AVM-2 could be used to solve the residual problem of avermectin and ensure the food safety of E. sinensis.