The postlarval development, growth and nutrition of the Indian white prawn Penaeus indicus (H. Milne Edwards)

Ribeiro, Fernando Alberto Loforte Teixeira

January 1998

This study investigates the postlarval development of Penaeus indicus. Particular emphasis is given to characterisation of developmental morphology, growth, ontogenetic change in digestive enzymes, and assessment of energy requirements for postlarval substages. The morphology of the Penaeus indicus postlarvae (PL) changes continuously as consecutive substages (PL1-14) were reached by daily moults. After 22 ecdyses (typically 35 days) the PL22 substage is succeeded by the adult form. Most of the morphological differentiation is observed after 2 weeks at substage PL14, but the branchiae only reach full development from substage PL16. The rostrum teeth, telson spines and ratio of body segments are important characters for identification of Penaeus indicus PL stage. Growth of PL1 postlarvae was significantly slower when fed artificial diets rather than Artemia nauplii. Similarly 14-day postlarvae which were slow developers (PL9) also grew slowly on artificial diets whereas postlarvae of the same age (substage PL14) did not show this suppression. Trypsin and amylase digestive activities increased with PL development (P<0.001) but did not change significantly (P>0.05) with diet fed. Trypsin was low during early PL stages of development and a sharp increase in tryptic activity was only observed at substage PL20 (24 mm). Amylase increased from PL1 and exceeded that of trypsin for 2-3 weeks after metamorphosis. It appears that during early stages of development postlarvae are unable to efficiently digest artificial diets due to low digestive activity. For smaller 14-day postlarvae, poor performance is possible related to a genetic regulated constraint and not to digestive capacity since enzyme levels were similar to those in larger PL14. PL1 fed for 15 days on commercially dried low-hatch decapsulated Artemia cysts showed comparable growth and survival to that of PLs fed on Artemia nauplii, but significantly higher (P<0.05) than that supported by commercial granulated and flake diets and low-hatch decapsulated cysts processed into a granulated diet or dried at 90°C. Leaching of soluble protein and carbohydrates was high for all artificial diets but low-hatch decapsulated cysts were highly stable in water. Commercially dried low-hatch cysts retain a living membrane capable of osmoregulation and retaining highly digestible nutrients important for fast growth and development of postlarvae. Survival of postlarvae was negatively correlated (P<0.05) with leaching of soluble protein, but no correlation was observed for loss of soluble carbohydrates. Daily food ingestion and routine metabolism of postlarvae increased with PL development. Food metabolism (SDA) was low for early PL stages, but increased steadily up to stage PL16 and remained the same from this substage onwards. Assimilation efficiency decreased for early PL substages and remained low up to PL13, and then increased steadily. Different energy strategies seem to be adopted during postlarval development to cope with ontogenetic modifications after metamorphosis. During early development little energy is lost in metabolism, and so more energy is converted to growth to support fast development, with increase in predatory behaviour and development of digestive system. Later more energy is lost in metabolism and committed for maintenance. The ontogenetic changes in digestive activity, energy trend and assimilation efficiency latter in PL development seems to reflect the adaptation to benthic carnivorous existence and migration of postlarvae and juveniles form inshore nursery to deeper waters. Stocking density above 20 PLs 1- reduced growth and survival but increased size variability above the inherent range, for postlarvae PL1-18 days old. However, Penaeus indicus postlarvae showed low agonistic behaviour and tolerated relatively high densities similar to that of other penaeid species, which further enhances the potential and advantages of the white prawn for culture.

590

Digestive physiology; Digestive enzymes

Protease activity in the gut of Rhodnius.

Persaud, Clement Ramdat.

January 1969

No description available.

Biology, General.

Digestive enzymes

Insects -- Digestive organs.

Protease activity in the gut of Rhodnius.

Persaud, Clement Ramdat.

January 1969

No description available.

Insects -- Digestive organs.

Digestive enzymes

Biology, General.

Extracellular digestion in two intertidal mussels and the role played by their gut bacteria

Simon, Carol Anne

January 1997

The intertidal mussels. Perna perna and Choromytilus meridionalis co-occur on the southern coast of South Africa. Mussels ingest mixtures of bacteria. phytoplankton. zooplankton and detritus. with proportions varying according to availability. These bivalves filter similar-sized particles. which might result in interspecific competition. Carbohydrate-digesting enzymes of the mussels and their enteric bacteria. and bacteriolytic enzymes of the mussels were therefore examined to elucidate feeding ecology in these animals at an enzymatic level. Style enzymes of both species digested the storage carbohydrates amylose glycogen and laminarin, and the structural carbohydrate carboxymethyl cellulose (CMC). Differential rates of digestion of these carbohydrates suggests that Perna perna relies more on plankton (and possibly bacteria) than on detritus for food while Choromytilus meridionalis relies equally on all components of the seston. There may therefore be some degree of resource partitioning of the seston. The styles of P.perna had a lower specific enzyme activity. but higher protein content than those of C.meridionalis. P.perna could therefore release more glucose from a given concentration of substrate than C.meridionalis. The gut contents and tissue were examined microscopically to determine where the bacterial colonisation sites were. Bacteria were associated primarily with the gut contents but not the gut walls. of both species. The styles housed spirochaete bacteria (Crislispira sp), Perna perna housed large numbers of one species. while Choromytilus meridionalis had lower numbers of two species. Levels of infection differed between species and localities. Enteric (but not style) bacteria of Perna perna and Choromytilus meridionalis always digested the same carbohydrates as the mussels as well as the structural carbohydrates mannan and fucoidan. Activity was erratic on the structural compounds, carageenin and xylan, and absent on alginic acid or inulin. Activity on the storage carbohydrates by enteric bacteria from C.meridionalis was higher than by those from P.perna. This is probably related to the larger bacterial populations housed by C.meridionalis than by P.perna. Bacteriolytic activity by the digestive enzymes of Pema perna was higher than for Choromytilus. In P.perna it was due to a combination of different enzymes one of which is a true lysozyme. C.meridionalis did not produce a true lysozyme. Enzymes produced by the mussels and their enteric bacteria allow the mussels to utilise all components of the seston. Low endogenous enzyme activity by Choromytilus meridionalis, coupled with the high activity by its enteric bacteria, suggests that they rely more on bacterial activity to meet their dietary requirements than does Perna perna. The ability of enteric bacteria to digest carbohydrates which the mussels cannot indicates that the bacteria are endosymbiotic, although the sporadic nature of activity of some of the enzymes, and the fact that bacteria are associated with the gut contents, indicates that the relationship is only incidental.

Perna -- Digestive organs

Mussels -- Digestive organs

Spirochaeta

Molecular mechanisms of enhanced expression of the chemokine interleukin 8 (CXCL8) in cystic fibrosis (CF) airway epithelial cells

Poghosyan, Anna

January 2014

Cystic fibrosis (CF) is a fatal disease caused by a mutation of the CFTR gene and severe inflammation of the lungs. The inflammatory process is characterised by increased production of the potent neutrophil-attracting chemokine interleukin 8 (CXCL8), but the mechanism responsible is poorly understood. We tested the hypothesis that altered epigenetic regulation is responsible for the basal and cytokine-induced CXCL8 upregulation in CF airway epithelial cells. We found that CXCL8 protein levels and mRNA expression were higher in CF as compared to normal cells both basally and following cytokine stimulation. The difference in the expression was independent of increased mRNA stability or increased transcription factor activation and/or expression in CF cells. We found increased basal, but not cytokine-induced transcription factor binding to the CXCL8 promoter in a chromatin environment in CF cells in comparison with normal cells, increased histone H3 lysine 4 trimethylation, hypomethylation of CpG sites and increased binding of BRD3 and BRD4 to the CXCL8 promoter. Disruption of BRD4 association with chromatin using the selective BET bromodomain inhibitor JQ1 decreased CXCL8 protein release from CF cells to the levels observed in normal cells. Our observations suggest that epigenetic alterations are responsible for the upregulation of CXCL8 in CF and could become potential targets in the development of new therapeutic strategies.

616.3

WI Digestive system

Role of the Hedgehog pathway in the pancreatic tumour microenvironment

Saini, Francesca

January 2014

Pancreatic cancer is a solid tumour with poor prognosis and ineffective therapeutic approaches. The role of the tumour microenvironment in supporting pancreatic tumour growth and metastasis has been demonstrated. In particular, a new concept of the stem cell niche as a mixed population of mesenchymal stem cells and niche cells (myofibroblast cells) involved in promoting these processes is emerging. Paracrine transmission of the Hedgehog (Hh) pathway in the pancreatic tumour microenvironment has previously been reported. This project aimed to identify the stromal pancreatic cancer cells able to respond to Hh pathway exogenous stimuli and to investigate their relationship to tumour progression, in order to define new targets for pancreatic cancer therapies. Gene and protein expression analysis in pancreatic primary tumours demonstrated overexpression of Shh ligand not only at the epithelial but also at the stromal level in advanced stages of pancreatic cancer. In vitro modelling of the mesenchymal stem cell niche (mSCN) using human bone marrow-derived mesenchymal stem cells (MSCs) co-cultured with cancer-associated fibroblasts (CAFs) or myofibroblast-like cells (MF-like, obtained by treating MSC with TGFβ) showed up-regulation of Shh gene and protein expression in comparison to single stromal cell populations (MSCs; CAFs and MF-like cells). The investigation of Hh paracrine signalling in pancreatic tumour microenvironment using different 2D in vitro assays (transwell and direct co-cultures, NShh treatments and tumour condition media cultures) demonstrated the inability of CAFs and MSCs, when grown in culture conditions that prevent their activation (increase of αSMA), to respond to Hh exogenous stimuli and suggested the mSCN as the stromal context in which paracrine induction of the Hh pathway takes place. Taken together, these results suggest a new concept: Shh expression is an indicator of the mSCN in the pancreatic cancer microenvironment and that its role as a possible target for chemotherapy should be explored.

616.99

WI Digestive system

Predicting the response to Ondansetron, a 5HT3 receptor antagonist, in irritable bowel syndrome with diarrhoea : the utility of clinical features and objective biomarkers

Garsed, Klara C.

January 2014

Background: Patients with diarrhoea predominant irritable bowel syndrome (IBS-D) suffer from loose frequent stools with associated urgency and fear of incontinence. Relief from these symptoms is an important unmet need. The 5-HT3 receptor antagonist Alosetron has been shown to increase stool consistency, decrease urgency and reduce abdominal pain leading to a global increase in satisfaction with treatment [1]. Its use is restricted following an increased incidence of ischaemic colitis and this agent is not available in Europe. The serine proteases family of proteolytic enzymes have been identified as the source of increased faecal proteolytic activity in patients with IBS. These enzymes may be mechanistically important via their action on the Protease activated receptor (PAR) -2, inducing increases in permeability and hypersensitivity. Aims: To assess the efficacy of the commonly prescribed 5-HT3 antagonist Ondansetron, in patients with IBS-D and to identify biomarkers that might allow us to predict response defining an Ondansetron responsive endophenotype of IBS. To structurally characterise faecal serine proteases and define the impact of treatment with Ondansetron. Methods: 120 patients meeting Rome III criteria for IBS-D entered a randomised, double-blind, placebo controlled, cross-over study of 5 weeks of Ondansetron 4mg versus placebo with dose titration allowed up to two tablets thrice daily in the first 3 weeks. Patients completed daily bowel symptom diaries documenting stool consistency using the Bristol Stool Form Score (BSFS). Gut transit and small bowel water content were measured in the last week of each treatment. The primary endpoint was average stool consistency in the last 2 weeks of treatment. Faecal samples were obtained from 30 healthy volunteers (HV) and 79 IBS-D patients participating in a trial of Ondansetron versus placebo. Colonic transit was measured using radio-opaque markers. Faecal serine proteases (FSP) were purified from faecal extracts using Benzamidine-Sepharose affinity chromatography. SDS-PAGE profiled components were identified using trypsinolysis and tandem-mass-spectrometry. Functional protease activity in faecal extracts was measured using a colourimetric assay based upon the proteolysis of azo-casein. Results: Ondansetron significantly improved stool consistency In the intention to treat analysis n= 101, with a 1.39 (95% CI1.20-1.58)point decrease on the Bristol stool form scale whilst taking Ondansetron compared to a 0.51 (95% CI 0.32-0.72) point reduction whilst taking placebo p=<0.0001. Compared to placebo patients on Ondansetron experienced fewer days with urgency (p=0.01), lower urgency scores (P<0.001), reduced frequency of defecation (p=0.001) and less bloating (p=0. 25) although pain scores did not change significantly. Protein analysis identified the most abundant FSPs as being of human origin and likely pancreatic juice derived. Functional assays showed increased FSP and faecal amylase in IBS-D compared to HV. Those with higher amylase had significantly higher FSP and greater anxiety. FSP activity correlated negatively with whole gut transit in IBS-D (Spearman r=-0.32, p=0.005) and HV (r=-0.55, p=0.014), but was not affected by treatment with Ondansetron. Conclusions: Ondansetron is an effective and well tolerated treatment in patients with IBS-D with a low number of side effects. It slows whole gut transit, but without a demonstrable difference in small bowel water content. Clinical rather than biochemical indicators predicted responsiveness to Ondansetron best. Patients with less severe symptoms are more likely to respond well to Ondansetron which should prove a useful addition to the current rather limited therapies available for this important group of patients. Previous reports that FSP activity is elevated in some patients with IBS-D has been confirmed. We have increased our understanding of this phenomenon by characterising the proteins responsible for the serine protease activity, showing that most of this activity is likely due to human pancreatic enzymes.

616.3

WI Digestive system

Scaffolds for liver tissue engineering : in vitro co-culture & in vivo release

Hammond, John Stotesbury

January 2009

This thesis presents the development and evaluation of two applications for scaffolds in the field of liver tissue engineering. In the first study a poly (D,L lactic acid) (PDLLA) scaffold is used as a three-dimensional template for hepatocyte–hepatic stellate cell (HSC) co-culture. To enhance PDLLA ligand binding capacity scaffolds are surface modified using allylamine plasma deposition and treatment with NaOH. Primary adult rat hepatocytes and HSC are then seeded onto these scaffolds and cultured in static conditions. Scanning electron microscopy (SEM) is used to assess mono-culture and co-culture morphology whilst synthetic and cytochrome P450 function are measured using albumin and testosterone assays. The second study explores the potential for intrahepatic growth factor and extracellular matrix (ECM) delivery from a biodegradable polymer scaffold to promote liver growth and to enhance regeneration. The study is undertaken in rats. The scaffold design and implantation technique are first piloted in a short survival study. Hepatocyte growth factor (HGF), epidermal growth factor (EGF), fibroblast growth factor (FGF)1, FGF2 and liver derived ECM (L-ECM) are then loaded into poly(lactic-co-glycolic acid) (PLGA) + 5% poly(ethylene glycol) (PEG) scaffolds and implanted into normal and partially hepatectomised liver. Implant morphology is assessed by micro-CT reconstruction. Growth factor bioactivity and release are confirmed by in vitro profiling. Liver growth and volume redistribution are assessed by liver weight analysis. Parenchymal injury and function are quantified by measuring serum aspartate aminotransferase (AST) & bilirubin. 5-bromodeoxyuridine (BrdU) inclusion & MIB-5 immunohistochemistry (IHC) are used to identify hepatocyte and non-parenchymal cell proliferation. Liver-scaffold interaction is characterised by H&E and Masson’s trichrome staining. Non-parenchymal cell migration is assessed by ED-1 and desmin IHC. All histology is then subjected to image analysis.

617.5

WI Digestive system

P2X7, inflammation and gastrointestinal disease

Stevenson, Diane J.

January 2008

The inflammatory bowel diseases, ulcerative colitis and Crohn's disease are characterised by spontaneously relapsing and remitting inflammation, associated with increased mucosal levels of the inflammatory cytokine, interleukin-1 (IL-1)β. IL-1β processing and release is mediated by ATP stimulation of the purine receptor, P2X7. P2X7 is a membrane ion channel highly expressed in immune cells. Signal transduction occurs via rapid cation exchange, plasma membrane depolarisation and increased intracellular calcium. Additionally, prolonged or repeated P2X7 stimulation leads to formation of a non-selective membrane pore permeable to small molecules, and ultimately to cell death. The aim of this project was to investigate the properties of the P2X7 receptor in mononuclear cells, to show that it is associated with IL-1β release in the colon, and that this release can be modified by P2X7 antagonists. Studies of ethidium bromide uptake, a functional assay, showed that P2X7 receptors are present on LPMCs and displayed properties similar to those of PBMCs and THP-1 cells. P2X7 receptor-stimulation released mature IL-1β from LPMCs in a dose-dependent manner that, in IBD patients, matched the severity of their inflammation, and could be markedly reduced by P2X7 antagonists. P2X7 stimulation also results in increased exposure of phosphatidylserine on the outer cell membrane (PS flip), often considered to be a marker of apoptotic cell death. P2X7-stimulated PS flip however is reversible and is not associated with cell death following brief stimulation times. Cell death caused by longer stimulation did not have features of apoptosis, was more evident in monocytes than lymphocytes, with LPMCs being less susceptible than PBMCs and THP-1 cells. These studies have shown that the P2X7 receptor is intimately involved in the release of IL-1β from human colonic mononuclear cells, that the release is greater in cells from IBD tissue and can be markedly inhibited by P2X7 antagonists.

616.33

WI Digestive system

Lectin-mediated biofilm maturation, quorum sensing and Pseudomonas aeruginosa infections in cystic fibrosis

Crusz, S. A.

January 2009

Chronic infections with Pseudomonas aeruginosa are primarily responsible for the decline in lung function and ultimate mortality in cystic fibrosis patients. The overall aim of this project was to elucidate some of the molecular mechanisms governing the pathogenesis of P. aeruginosa in the cystic fibrosis lung. This was with particular reference to (a) quorum sensing, a cell-to-cell communication system controlling the production of virulence determinants in a population density dependent manner using diffusible signal molecules and (b) the pseudomonas lectins, LecA and LecB, which are known to contribute to biofilm formation. Serial sputum samples were collected from adult and paediatric patients with cystic fibrosis and a cohort of clinical P. aeruginosa isolates was assembled. Using bioreporters, these isolates were shown to synthesise a range of quorum sensing signal molecules. Furthermore, the direct detection of these P. aeruginosa products from infected sputum samples in conjunction with patient clinical data implied an association between sputum quorum sensing signal molecule level and cystic fibrosis disease status, response to intravenous antibiotics and the presence of non-culturable P. aeruginosa. Quorum sensing also makes an important contribution to P. aeruginosa biofilm maturation, antibiotic tolerance and resistance to host defences. There is evidence that the quorum sensing regulated lectins LecA and LecB contribute to biofilm development and this was investigated using different biofilm assays, including the flowchamber biofilm system. This work demonstrated that LecA contributed to biofilm maturation in both laboratory and clinical strains and hydrophobic galactosides were shown to be able to inhibit biofilm development. The putative biofilm target ligand for LecA was tentatively identified as the Psl exopolysaccharide. Mutants deficient in either lecA or lecB produced defective biofilms, which could be inhibited and/or dispersed by galactosides or furanosides respectively, including novel synthetic furanoside dendrimers. The latter proved inhibitory to both laboratory and clinical P. aeruginosa isolates and constitute a potential novel therapeutic.

616.3

WI Digestive system