Salinity regulates <Emphasis Type="Italic">N</Emphasis>-methylation of phosphatidylethanolamine in euryhaline crustaceans hepatopancreas and exchange of newly-formed phosphatidylcholine with hemolymph

Phosphatidylcholine (PC), the main phospholipid in eukaryotes, is synthesized via two different routes, the phosphatidylethanolamine N-methyl transferase (PEMT) and the CDP-choline pathways. We previously showed in euryhaline fish that salinity impacts the relative contribution of the two pathways for PC biosynthesis, with PEMT pathway being activated in the liver of sea water (SW)-adapted animals. To address the occurrence of such phenomenon in other animals we performed in vivo metabolic studies in two crustacean species: the Chinese crab (Eriocheir sinensis) and the green crab (Carcinus maenas). In both species, the levels of PC and phosphatidylethanolamine in hepatopancreas and hemolymph were not modified by SW-adaptation. In E. sinensis, SW-adaptation activated PC labeling from l-(U-¹⁴C)-serine in the hepatopancreas and resulted in an increased ratio of PC specific activities between hemolymph and hepatopancreas. In C. maenas, incorporation of l-(3-³H)-serine and l-(2-¹⁴C)-ethanolamine into PC of hepatopancreas was strongly inhibited after acclimation to fresh water (FW). The results show that PC synthesis via the PEMT pathway and its subsequent release into hemolymph are both activated in SW- compared to FW-adapted animals. SW-adaptation also resulted in increased tissue concentrations of betaine and labeling from l-(U-¹⁴C)-serine, suggesting that the PEMT-derived PC is used for the synthesis of organic osmolytes. The physiological relevance of these observations is discussed.     

不同发育时期中华绒螯蟹血淋巴渗透压的分析

中华绒螯蟹血淋巴渗透压随不同的生长阶段而异;不论是在淡水中,还是在不同盐浓度的海水中,都具有保持血淋巴高渗调节控制的能力。青春期前,6—9月份,血淋巴渗透压自390mOsm/Kg H_2O升至560mOsm/Kg H_2O;青春期后,9—12月份,自555mOsm/Kg H_2O升至656mOsm/Kg H_2O,但12月到翌年3月份却明显下降。雌蟹从淡水移入海水后的血淋巴渗透压调升速度,青春期后是青春期前的三倍左右。     

Lipids as energy source during salinity acclimation in the euryhaline crab Chasmagnathus granulata dana, 1851 (crustacea-grapsidae)

Lipids seem to be the major energy store in crustaceans. Moreover, they are extremely important in maintaining structural and physiological integrity of cellular and sub cellular membranes. During salinity adaptation, energy-demanding mechanisms for hemolymph osmotic and ionic regulation are activated. Thus, the main goal of this work was to verify the possible involvement of lipids as an energy source in the osmotic adaptation process. The estuarine crab Chasmagnathus granulata was captured and acclimated to salt water at 20 per thousand salinity and 20 +/- 2 degrees C, for 30 days. After acclimation, crabs were divided into groups of ten and transferred to fresh water (0 per thousand ), salt water at 40 per thousand salinity, or maintained in salt water at 20 per thousand salinity (control group), without feeding. Before and seven days after the salinity change, wet weight and lipid concentration in gills, muscle, hepatopancreas, and hemolymph were determined according to the colorimetric assay of sulphophosphovanilin. Results show that hepatopancreas lipids were not mobilized during osmotic stress regulation. Gill and muscle lipids were significantly lower in crabs subjected to hypo-osmotic stress than those subjected to the hyper-osmotic stress or maintained at the control salinity. Our results point to the occurrence of lipid mobilization and involvement of these compounds in the osmotic acclimation process in C. granulata, but with differences between tissues and the osmotic shock (hypo or hyper) considered.     

Use of collagenase from the hepatopancreas of the Kamchatka crab for isolating and culturing endothelial cells of the large vessels in man

The application of hepatopancreas collagenase from crab Paralithodes camtschatica for the isolation and cultivation of the endothelial cells was studied in human umbilical vein endothelium. The comparison of the enzyme from crab hepatopancreas with collagenase from Clostridium histoliticum has shown that the number of viable cells isolated from human umbilical vein by the crab enzyme was lower than in the case of microbial collagenase. However, this difference was not significant for subsequent cultivation of cells. Harvesting of the endothelial cells from the substrate during cultivation was more effective in the case when collagenase from crab hepatopancreas was used. It was shown that crab collagenase, in contrast with microbiological collagenase, was not a metal-dependent enzyme.     

Characterization of two C-type lectin-like domain (CTLD)-containing proteins from the cDNA library of Chinese mitten crab Eriocheir sinensis

Chinese mitten crab Eriocheir sinensis is one of the most important aquaculture crustacean species in China. A cDNA library was constructed from mixed tissues of E. sinensis challenged with LPS. Eight genes involved in immune response were identified from 319 single colonies. Among them, two different C-type lectin-like domain (CTLD)-containing proteins were firstly identified in Chinese mitten crab. The full-length cDNA sequences of two C-type lectin-like domain (CTLD)-containing proteins named EsCTLDcp-1 and EsCTLDcp-2 were cloned by 5' RACE. The deduced amino acid sequences of EsCTLDcp-1 and EsCTLDcp-2 possessed several conserved features of C-type lectin subfamily. The tissue distribution of EsCTLDcp-1 and EsCTLDcp-2 was examined by Real-time PCR. In the normal Chinese mitten crab, the expression of EsCTLDcp-2 was detected in all tested tissues such as haemolymph, muscle, intestine, gill, heart, gonad and hepatopancreas, whereas in muscle, intestine, gill, heart and hepatopancreas for EsCTLDcp-1. The highest expressions of EsCTLDcp-1 and EsCTLDcp-2 were both observed in hepatopancreas. LPS significantly induced the expression of EsCTLDcp-1 and EsCTLDcp-2 in the hepatopancreas at the different time points. The induced fold change of EsCTLDcp-1 and EsCTLDcp-2 increased significantly from 2 h for EsCTLDcp-1 and 4 h for EsCTLDcp-2, and reached a maximum at 12 h, then dropped at 24 h. A differential pattern was found in Chinese mitten crab challenged with Chinese mitten crab pathogen Aeromonas hydrophila. The expression of EsCTLDcp-1 increased significantly at 2 h post-challenge crabs with A. hydrophila, then decreased at 4 h and 8 h, after that increased at 12 h and 24 h. The expression of EsCTLDcp-2 was decreased at the all time points. All these data suggest a differential role of EsCTLDcp-1 and EsCTLDcp-2 in the crab innate immune response to bacterial infection.     

Presence of itaconic acid in the hemolymph and tissues of the freshwater crab, Potamonautes warreni Calman

Itaconic acid was detected in hemolymph, hepatopancreas, gill and muscle tissue of the freshwater crab, Potamonautes warreni. This metabolite has previously only been found in unicellular organisms and fungi. The measured itaconic acid is either being manufactured by the crab itself or present due to infestation by unicellular organisms or fungi.     

Hepatopancreas but not ovary is the site of vitellogenin synthesis in female fresh water crab, Oziothelphusa senex senex

The objective of the present study was to explore the site of synthesis of vitellogenin (Vtg) in fresh water edible crab, Oziothelphusa senex senex. Vtg cDNA fragments were isolated from the hepatopancreas of female crabs using RT-PCR method, and the deduced amino acid sequence of O. senex senex showed more than 60% identity with other brachyuran Vtg sequences. RT-PCR analysis showed that Vtg mRNA can be detected only in hepatopancreas of female Oziothelphusa but not in other tissues including eyestalks, Y-organs, mandibular organs, thoracic ganglion, hypodermis and ovary. Antibodies were raised against vitellin purified from the ovary of O. senex senex. Immunoprecipitation analysis revealed the presence of Vtg in the hepatopancreas of vitellogenic stage I females and in the hemolymph, hepatopancreas and ovary extracts from vitellogenic stage II females but absent in hemolymph and hepatopancreas extract of males. These results suggest that Vtg is synthesized only in hepatopancreas but not in the ovaries of O. senex senex. In addition, Vtg synthesized in hepatopancreas is transported to ovary through hemolymph.     

Metabolic effects of eyestalk removal in the crab Varuna litterata (Fabricius)

Metabolic effects of eyestalk removal in the crab V. litterata is studied. Bilateral eyestalk ablation results in hypoglycaemia and a fall and rise in the glycogen content of hepatopancreas and muscle respectively. Injection of unboiled eyestalk extract evokes hyperglycaemia, whereas boiled eyestalk extract does not produce any significant change in the glycaemia level. The other effect of eyestalk removal is a fall in the fat content of the hepatopancreas and these results are discussed.     

The thermotropic behavior and fatty radical composition of major phospholipids of the tanner crab <Emphasis Type="Italic">Chionoecetes bairdi</Emphasis> Rathbun, 1924

This study examines the fatty radical (FR) composition and heat-induced crystalline to liquidcrystalline phase transitions of phosphatidylcholine (PC) and phosphatidylethanolamine (PE) from the gills, hepatopancreas, gonads, and muscle of the tanner crab Chionoecetes bairdi, which was collected in the summer at a near-bottom water temperature of 2.8°C. The location of the PC and PE thermograms below 2.8°C indicates the functionally optimal liquid crystalline state of the membrane lipid matrix. The proximity of the thermogram profiles of PC and PE from the different organs and tissues of C. bairdi and significant overlapping of the temperature areas of transitions (symbatic behavior) correlate with a similar composition of major FR and their total parameters in PC and PE. The obtained data point to the effective adaptation of the bairdi crab to low water temperatures and to the need for adaptive changes in the FR composition or change of habitat with increasing temperature. The thermotropic behavior of muscle PC, in which the greater part of the thermogram is in the temperature range from 2.8 to 32°C, suggests a potential for the tanner crab to adapt to increased temperatures.     

Glycolytic enzymes in the premolt field crab Paratelphusa hydrodromus (Milne-Edwards) (Crustacea)

The quantitative assay of hexokinase (HK), phosphorylase, phosphofructokinase (PFK), glucose 6-phosphate dehydrogenase (G-6-PDH), glycerol 3-phosphate dehydrogenase (G-3 PDH) and lactate dehydrogenase (LDH) revealed that coxal muscles compared to hepatopancreas contained higher activities of all the enzymes investigated. It appears that the coxal muscles of the premolt field crab has carbohydrate-based fuel economy. The hepatopancreas is a rich source of lipid and very poor source of glycogen. The activity of G-6-PDH is moderately high in the hepatopancreas. It seems that in this lipogenic tissue conversion of G-6-P to triose phosphate occurs predominately via pentose-phosphate pathway thus generating NADPH for lipogenesis. The relative G-3PDH ad LDH activities in hepatopancreas and coxal muscles led us to believe that the reconversion of NAD from NADH in hepatopancreas nd muscle flexor is effected by glycerol 3-phosphate shuttle, whereas in muscle extensor it is achieved by both G-3PDH and LDH activities.     

Pharmacokinetic and metabolic study of itanoxone in the crab Pachygrapsus marmoratus (Decapoda, Brachyura): comparative study with clofibric acid

The LD50 of itanoxone injected i.v. in the crab Pachygrapsus marmoratus is 144 mg/kg. Hypolipidemic drug distribution is distinct according to organ and sex. The fixation power of muscle is comparatively low. Ovary radioactivity is higher than in the testicles. Itanoxone storage is large in the hepatopancreas. Metabolism, increasing over time, is not noticeably different according to sex. Two metabolites, chlorobiphenylcarboxylic acid and chlorobiphenylacetic acid, found in crab, are also identified in rat and man. The pharmacokinetic and metabolic study of itanoxone and clofibric acid in the crab shows a difference between the two drugs. Itanoxone metabolism and fixation is higher than clofibric acid.     

Aspects of Lipid Metabolism in Crustaceans

Lipid is the predominant organic reserve of many crustaceansand is important in the metabolism of many of these animals.Ingested lipid is digested by gastric lipase and apparentlyabsorbed into depot-lipid as rß-monoglycerides. Thevariation in the content and composition of the depot-lipidis a function of both the external environment and internalcontrol systems. Evidence suggests that lipids from marine organismscontain more long-chain polyunsaturated fatty acids than doesthe lipid of fresh water organisms which in turn have a highproportion of C₁₆ and C₁₈ fatty acids. The fatty-acid compositionof the sub-tropical land crab,Gecarcinns lateralis, resemblesthat of the fresh-water crustaceans. In addition, our studiesindicate that aspects of lipid metabolism may be under endocrinecontrol. The induction of premolt by destalking markedly increasesthe synthesis of lipid from metabolic precursors and its subsequentincorporation into the depot-lipid of the hepatopancreas. Inthe late premolt stages there is a decrease in the lipid contentof the hepatopancreas. This occurs as the lipid is mobilizedfrom the hepatopancreas to meet the energy demands of all thoseprocesses resulting in ecdysis. This sinusoidal variation inthe lipid metabolism of the hepatopancreas is influenced byan eyestalk factor (s).     

Effect of aerial exposure on the antioxidant status in the subantarctic stone crab Paralomis granulosa (Decapoda: Anomura)

In Tierra del Fuego (Southern South America), the stone or false king crab, Paralomis granulosa represents one of the most important crab fisheries. After capture, animals are kept in baskets and exposed to dryness for several hours, when the water flow through the gills is interrupted. As a consequence a concomitant increase of reactive oxygen species begins, triggering oxidative stress. The aim of this study was to determine oxidative stress and antioxidant enzyme activities due to air exposure in different tissues of P. granulosa. Fifty crabs (carapace length >82 mm) were captured in Beagle Channel (54 degrees 50'S, 68 degrees 20'W) during winter 2004. Five groups of 10 crabs each were exposed to dryness at 6 degrees C for 0, 3, 6, 12 or 24 h, respectively. Activity of superoxide dismutase (SOD), catalase (CAT), glutathione S transferase (GST) protein and lipid oxidation were measured in gills, muscle, hepatopancreas and haemolymph samples. Almost all analyzed tissues showed antioxidant enzymes activity, which varied with time of air exposure. The maximum enzyme activity was measured after 6 h of air exposure. Protein oxidation levels varied significantly in gills. Lipid peroxidation levels increased significantly in muscle and hepatopancreas. The critical time of air exposure probably occurs at 6 h. Thereafter animals were unable to induce the synthesis of antioxidant enzymes or proteins. This should be taken into account to minimize the stress generated by the commercial capture process.     

Hepatopancreas cell cultures from mud crab, <Emphasis Type="Italic">Scylla paramamosain</Emphasis>

Hepatopancreas is an important digestive and endocrine organ in crustacean. However, there are few reports on cell cultures from crabs. Here, the cell cultures of hepatopancreas from Scylla paramamosain was studied in vitro. Both the primary cell culture and subculture were grown in Leibovitz’ L-15 medium, M199 medium, or a specially designed medium for S. paramamosain (MSP). The results showed that hepatopancreas cells in vitro grew in compact clusters in 2–3 d. Four types of cells could be identified. They were embryo cells, fibrillar cells, resorptive cells, and blister-like cells, respectively. Some of these cells could be subcultured for three generations. The MSP supported the best survival of these hepatopancreas cells, while M199 medium was the least effective of these three media. Fetal bovine serum and crab muscle extracts as supplements stimulated growth, but the crab hemolymph inhibited cell growth. Taken together, MSP is an appropriate medium for hepatopancreas cell cultures from S. paramamosain and can support cultures through several passages.     

Between-habitat comparison of digestive enzymes activities and energy reserves in the SW Atlantic euryhaline burrowing crab Neohelice granulata

The digestive and metabolic characteristics at the biochemical level underlying between-habitat dietary shift of the SW Atlantic euryhaline burrowing crab Neohelice granulata under natural conditions are unknown. We made studies on adult males of N. granulata from the open mudflat and the vegetated saltmarsh in a SW Atlantic costal lagoon (Mar Chiquita, 37°32'-37°45'S; 57°19'-57°26'W, Argentina). We determined and compared amylase, maltase, sucrase, proteolytic, lipase and alkaline phosphatases activities in the hepatopancreas; glycemia, and glycogen, free glucose, triglycerides and protein concentrations in hepatopancreas, chela muscle, and anterior and posterior gills. The results show that N. granulata exhibits characteristics and between-habitat differences at the biochemical level (i.e. high amylase and disaccharidase activities, differences in total proteolytic, lipase and levamisole-insensitive AP activities in the hepatopancreas, and in the concentrations of glycogen in the gills, triglycerides in the hepatopancreas and of protein in the chela muscle) which could represent adaptive digestive and metabolic strategies to face the differences in environmental conditions (i.e. food availability). The possible relationship between digestive and metabolic characteristics and feeding patterns, type of food available and environmental conditions in each habitat is discussed.     

中华绒螯蟹对Pb和Cd的富集与释放特性

应用生物富集双箱动力学模型模拟了中华绒螯蟹(Eriocheir sinensis)分别在Pb浓度为0.25、0.50、0.75mg/L,Cd浓度为0.025、0.050、0.075mg/L的单一水环境中暴露时,蟹鳃、肝胰腺、肌肉和血淋巴对Pb和Cd的生物富集与释放实验,并通过非线性拟合得到中华绒螯蟹对Pb和Cd的富集速率常数k1、排出速率常数k2、生物富集系数BCF、生物半衰期B1/2、富集平衡时生物体内Pb和Cd含量CAmax等动力学参数。结果表明:(1)中华绒螯蟹对Pb和Cd具有明显的富集,蟹鳃、肝胰腺和肌肉中Pb和Cd的含量与富集时间和水环境中Pb和Cd暴露浓度表现出了很好的正相关,血淋巴在富集阶段没有明显的规律。理论平衡状态下鳃、肝胰腺和肌肉中Pb和Cd含量CAmax随着暴露浓度的增大而增大,且成正相关。(2)Pb和Cd在中华绒螯蟹组织器官中的富集具有选择性,开始实验前,Pb在中华绒螯蟹体内的的分布规律为:肝胰腺>鳃>肌肉>血淋巴;Cd的分布规律为:鳃>肝胰腺>血淋巴>肌肉。在实验浓度的Pb和Cd水环境中暴露16d后,Pb的分布规律为:鳃>肝胰腺>肌肉>血淋巴;Cd的分布规律为:肝胰腺>鳃>肌肉>血淋巴。(3)中华绒螯蟹对Pb和Cd的生物富集和释放都较缓慢。经过16d的生物富集,各组织器官中Pb和Cd的含量均未达到稳态平衡。Pb和Cd在组织器官中的生物富集系数(BCF)范围分别为5-51和6-3148,中华绒螯蟹对Cd的富集能力明显高于Pb(P1/2)范围分别为4-9d和8-57d,中华绒螯蟹对Cd的排出能力明显低于Pb。       

中华绒螯蟹水瘪子病不同发病阶段的病理变化特点

为了解中华绒螯蟹(Eriocheir sinensis)“水瘪子”病发生发展的过程, 揭示疾病的本质, 对病蟹进行了较全面的病理特点分析研究。根据病蟹肝胰腺颜色, 将病蟹划分为浅黄、浅粉、乳白和灰白4个发病阶段。研究结果表明, 随着病情的发展, 病蟹肝胰腺与蟹重比逐渐减少, 腔液与蟹重比逐渐增加, 肝胰腺管直径逐渐缩小, 各发病阶段病蟹的这些指标都与健康蟹有极显著差异(P<0.01), 病蟹肝胰腺与蟹重比除乳白阶段与灰白阶段之间和腔液与蟹重比除浅粉阶段与乳白阶段和乳白阶段与灰白阶段之间以及肝胰腺管直径除乳白阶段与灰白阶段之间的差异均不显著(P>0.05)和浅粉阶段与乳白阶段之间的差异显著(P<0.05)外, 其他各发病阶段之间这些指标均有极显著差异(P<0.01); 4个发病阶段病蟹6种组织器官中肝胰腺、鳃、肌肉组织和心脏组织病理变化具有相似性, 浅黄阶段主要是以组织器官水肿和萎缩为主, 是一种可逆的组织病理过程, 但在浅粉阶段肝胰腺和肌肉组织出现细胞坏死, 以后发病阶段更为严重, 鳃和心脏组织在乳白阶段出现细胞坏死, 坏死是一种不可逆的组织病理过程, 神经团和肠道组织病理变化不明显。根据不同发病阶段的病理特点, 在未来确定病因后通过消除病因等方法, 只有在病理变化处于可逆状态的浅黄阶段, 病蟹才有恢复的可能, 才有防控和挽救价值, 而浅粉阶段以后的病蟹由于主要器官组织细胞崩解坏死处于不可逆的病理过程, 即使病因消除病蟹已不可能恢复, 这样的病蟹应及时清除, 减少继续养殖造成进一步的经济损失。