Clinton O. Chichester

Growth response of Tilapia zillii fingerlings fed isocaloric diets with variable protein levels

Abstract Six purified casein diets within a range of 21–53% crude protein were fed for 3 weeks to young tilapia (Tilapia zillii) to determine the optimum protein requirement and protein: energy ratio for growth. Growth rate increased proportionally to protein level of the diet to an incorporation rate of about 35%. Beyond this a gradual retardation in growth rate was observed. The diet containing about 30% crude protein with a protein: energy ( P E ) ratio of 81, however, appeared to be more efficiently utilized by the fish in terms of protein deposition and energy retention than diets with higher levels of crude protein. These results indicate that Tilapia zillii requires about 35% protein in the diet for optimum growth while 30% for the maximum bodily protein deposition when casein is used as the sole source of protein. All six diets, however, showed an excellent feed conversion. Protein efficiency ratio (PER) decreased with the increase in protein in the diet.

Evolution of non-cytotoxic uterine natural killer cells.

The immune tolerance and de novo vascularization are two highly intriguing processes at the maternal–fetal interface that appear to be central to normal pregnancy outcome. Immune tolerance occurs despite the local presence of an active maternal immune system including macrophages, dendritic cells and specialized CD56brightCD16− uterine natural killer (uNK) cells (65–70%). Recent observations indicate that the phenotypic and functional repertoire of uNK cells is distinct from peripheral blood NK and endometrial NK cells, challenging the understanding of their temporal occurrence and function. Origin and specialized programming of uNK cells continue to be debated. uNK cells, replete with an armamentarium to kill the foreign, tolerate the conceptus and facilitate pregnancy. Why do these uNK cells remain non‐cytotoxic? Are these NK cells ‘multitasking’ in nature harboring beneficial and detrimental roles in pregnancy? Are there distinct subpopulations of NK cells that may populate the decidua? We propose that the endometrium/decidua functions as an ‘inducible tertiary lymphoid tissue’ that supports the recruitment and expansion of CD56brightCD16− NK cells and induces transcriptional up‐regulation of angiogenic machinery in response to exposure to local hormonal factors, cytokine milieu and perhaps hypoxia. The angiogenic features of uNK cells could further result in a ‘multitasking’ phenotype that still remains to be characterized. This article discusses the factors and pathways that bridge the angiogenic and non‐cytotoxic response machineries at the maternal–fetal interface.

Anti-Inflammatory Effects of Polyphenolic-Enriched Red Raspberry Extract in an Antigen Induced Arthritis Rat Model

The red raspberry ( Rubus idaeus ) fruit contains bioactive polyphenols including anthocyanins and ellagitannins with reported anti-inflammatory properties. This study sought to investigate the cartilage-protecting and anti-inflammatory effects of a polyphenolic-enriched red raspberry extract (RRE; standardized to total polyphenol, anthocyanin, and ellagitannin contents) using (1) an in vitro bovine nasal explant cell culture model and (2) an in vivo adjuvant-induced arthritis rat model. RRE contained 20% total polyphenols (as gallic acid equivalents), 5% anthocyanins (as cyanidin-3-glucoside equivalents), and 9.25% ellagitannins (as ellagic acid equivalents). In the in vitro studies, bovine nasal explants were stimulated with 10 ng/mL IL-1β to induce the release of proteoglycan and type II collagen. On treatment with RRE (50 μg/mL), there was a decrease in the rate of degradation of both proteoglycan and type II collagen. In the in vivo antigen-induced arthritis rat model, animals were gavaged daily with RRE (at doses of 30 and 120 mg/kg, respectively) for 30 days after adjuvant injection (750 μg of Mycobacterium tuberculosis suspension in squalene). At the higher dose, animals treated with RRE had a lower incidence and severity of arthritis compared to control animals. Also, histological analyses revealed significant inhibition of inflammation, pannus formation, cartilage damage, and bone resorption by RRE. This study suggests that red raspberry polyphenols may afford cartilage protection and/or modulate the onset and severity of arthritis.

In vitro and in vivo evidence for lack of endovascular remodeling by third trimester trophoblasts.

The placental-decidual interaction through invading trophoblasts determines whether a physiological transformation of the uterine spiral arteries is established or not. Trophoblast-orchestrated artery remodeling is central to normal placentation. Dysregulated uteroplacental interaction and vascular remodeling are thought to be associated with the molecular events underlying the pathology of late pregnancy anomalies including preeclampsia. Although the exact gestational age at which trophoblast invasion ceases is not known, it remains unclear whether late pregnancy trophoblasts retain the ability to transform the uterine arteries. Here, we have developed a dual cell, in vitro culture system that mimics the vascular remodeling events during normal pregnancy. We demonstrate that first and third trimester trophoblasts respond differentially to interactive signals from endothelial cells when cultured on matrigel. Term primary trophoblasts or immortalized third trimester extravillous TCL1 trophoblasts not only fail to respond to signals from endothelial cells but also inhibit endothelial cell tube formation. In contrast, HTR8 cells, representing a first trimester trophoblast cell line with invasive properties, undergo spontaneous migration and synchronize with the endothelial cells in a capillary network. This disparity in behavior was confirmed in vivo using a matrigel plug assay. Poor expression of VEGF C and VEGF receptors coupled with high E-cadherin expression by term primary trophoblasts and TCL1 cells contributed to their restricted interactive and migratory properties. We further show that the kinase activity of VEGF R2 is essential for proactive crosstalk by HTR8 cells. This unique behavior of first trimester trophoblasts in the presence of endothelial cells offers a potential approach to study cell-cell interactions and to decipher modulatory components in the serum samples from adverse pregnancy outcomes.

Detection of collagen type II and proteoglycans in the synovial fluids of patients diagnosed with non-infectious knee joint synovitis indicates early damage to the articular cartilage matrix

OBJECTIVE We have sought to determine if markers of proteoglycans and collagen type II (CII) degradation can be detected at an early stage following acute knee injury in the synovial fluid (SF) from a group of patients diagnosed with non-infectious knee joint synovitis (KJS). CII, proteoglycans and elastase activity in the SF from patients with KJS were compared to SF from patients with two chronic arthritis conditions: osteoarthritis (OA) and rheumatoid arthritis (RA) as well as normal SF controls. METHODS CII peptides were measured by sandwich ELISA using two monoclonal antibodies: 8:6:D8, a CII-specific antibody, and 14:7:D8 which binds to an amino acid sequence on CII as well as collagens type I, III and V. Epitope 9A4, a neo-epitope resulting from collagenase digestion of CI, CII, and CIII was measured by inhibition ELISA. Proteoglycans measurement included total sulfated glycosaminoglycans (sGAG) by dye-binding assay and 5-D-4 epitope, a keratan sulfate epitope, by inhibition ELISA. Elastase activity was measured colorimetircally using N-succinyl trialanine p-nitroanilide (SANA) substrate. RESULTS The quantified CII peptide concentrations by sandwich and inhibition ELISA were significantly higher in SF from patients with KJS (P<0.05) compared to SF from patients with OA, RA and normal aspirates. 5-D-4 and sGAG concentrations were significantly lower (P<0.05) in SF from patients with KJS compared to SF from patients with OA and RA. Elastase activity in SF from patients with KJS and RA were significantly higher (P<0.05) than SF from patients with OA. A significant correlation exists between elastase activity and 9A4 epitope concentration in SF from patients with KJS. CONCLUSION The elevated CII peptides concentrations in KJS SF compared to normal and OA aspirates indicate early signs of cartilage network damage. The low proteoglycans concentrations in SF from patients with KJS may indicate that injury is limited to the superficial zone of cartilage in the patient population studied. The high elastase activity in SF from patients with KJS and RA are linked to the high CII peptides concentration. The elastase activity in the SF from patients with KJS is due to the action of neutrophil elastase (NE) and collagenases, where both contribute to the destruction of the articular cartilage.

Lipopolysaccharide and cecal ligation/puncture differentially affect the subcellular distribution of the pregnane X receptor but consistently cause suppression of its target genes CYP3A.

The repressed expression of cytochrome P450 (CYP) enzymes in septic patients contributes significantly to therapeutic failures. Mice treated with sepsis-inducing agent lipopolysaccharide (LPS) sequentially express reduced mRNA levels of the pregnane X receptor (PXR) and its target genes Cyp3a(s), suggesting that reduction of Cyp expression is associated with the repression of PXR. The present study was undertaken to determine whether septic rats induced by LPS and cecal ligation/puncture (CLP) express reduced levels of rat PXR protein and whether the subcellular distribution of PXR is altered in septic conditions. Rats were treated with LPS (55 vs. 1 mg/kg) or underwent CLP, and the expression of CYP3A and PXR was determined. In LPS-treated rats, the expression of CYP3A enzymes was consistently decreased regardless of the doses used. In contrast, high dose and repeated low dose of LPS caused significant decreases on the nuclear PXR, whereas the opposite was true with the cytosolic PXR. When rats were administered with only a single low dose of LPS, both nuclear and cytosolic PXR levels were significantly increased. In the CLP model, rats undergoing CLP for 30 h expressed significantly lower levels of CYP3A but the PXR levels were not significantly altered. In addition, when rats were treated with dexamethasone, a significant induction of CYP3A was detected. However, such an induction was markedly antagonized by the treatment with LPS. The differential changes on the levels of the nuclear PXR and CYP3A between LPS and CLP models suggest that PXR plays negligible roles in the constitutive expression of CYP3A. The antagonism of LPS against dexamethasone-mediated CYP3A induction suggests that endotoxemia minimizes the inducibility of PXR target genes.

The biosynthesis of astaxanthin- XVI. The carotenoids in Crustacea.

Abstract 1. 1. The carotenoids were isolated from seven species of Crustacea. 2. 2. Astaxanthin was the most prominent pigments in both carapaces and internal organs. 3. 3. Other pigments isolated include β-carotene, echinenone, canthaxanthin, lutein, zeaxanthin, 3-hydroxy-canthaxanthin and 3,3′-dihydroxy-ϵ-carotene.

Inhibitory effects of polyphenol punicalagin on type-II collagen degradation in vitro and inflammation in vivo

Cartilage destruction is a crucial process in arthritis and is characterized by the degradation of cartilage proteins, proteoglycans, and type II collagen (CII), which are embedded within the extracellular matrix. While proteoglycan loss can be reversed, the degradation of CII is irreversible and has been correlated with an over-expression and over-activation of matrix metalloproteinases (MMPs). Among the various MMPs, the collagenase MMP-13 possesses the greatest catalytic activity for CII degradation. Here we show that the pomegranate-derived polyphenols, punicalagin (PA) and ellagic acid (EA), inhibit MMP-13-mediated degradation of CII in vitro. Surface plasmon resonance studies and molecular docking simulations suggested multiple binding interactions of PA and EA with CII. The effects of PA on bovine cartilage degradation (stimulated with IL-1β) were investigated by assaying proteoglycan and CII release into cartilage culture media. PA inhibited the degradation of both proteins in a concentration-dependent manner. Finally, the anti-inflammatory effects of PA (daily IP delivery at 10 and 50mg/kg for 14days) were tested in an adjuvant-induced arthritis rat model. Disease development was assessed by daily measurements of body weight and paw volume (using the water displacement method). PA had no effect on disease development at the lower dose but inhibited paw volume (P<0.05) at the higher dose.

DESMETHOXYYANGONIN AND DIHYDROMETHYSTICIN ARE TWO MAJOR PHARMACOLOGICAL KAVALACTONES WITH MARKED ACTIVITY ON THE INDUCTION OF CYP3A23

Kava kava (Piper methysticum), an herbal remedy, is widely used for the treatment of mild to moderate cases of anxiety. The therapeutic activity is presumably achieved through multiple constituents called kavalactones. Recently, kava extracts were shown to induce CYP3A4 and activate human pregnane X receptor (PXR). This study was undertaken to test the ability of purified kavalactones to induce CYP3A23 and activate PXR. Rat hepatocytes were treated with desmethoxyyangonin, dihydrokawain, dihydromethysticin, kawain, methysticin, or yangonin, and the expression of CYP3A23 was monitored. Among the kavalactones, only desmethoxyyangonin and dihydromethysticin markedly induced the expression of CYP3A23 (∼7-fold). A similar magnitude of induction was detected with combined six kavalactones at a noninductive concentration when individually used. The induced expression, however, was markedly reduced or completely abolished if dihydromethysticin, desmethoxyyangonin, or both were excluded from the mixtures. Interestingly, regardless of whether dihydromethysticin or desmethoxyyangonin was used alone or together with other kavalactones, similar amounts of total kavalactones were needed to produce comparable induction, suggesting that the inductive activity of dihydromethysticin and desmethoxyyangonin is additively/synergistically enhanced by other kavalactones. In addition, treatment with dihydromethysticin, desmethoxyyangonin, or pregnenolone 16α-carbonitrile (PCN) markedly increased the levels of CYP3A23 mRNA, and inhibition of mRNA synthesis abolished the induction. In contrast to PCN, dihydromethysticin and desmethoxyyangonin only slightly activated rat or human PXR. These findings suggest that the induction of CYP3A23 by dihydromethysticin and desmethoxyyangonin involves transcription activation, probably through a PXR-independent or PXR-involved indirect mechanism.

Effects of Doxazosin on Vascular Collagen Synthesis, Arterial Pressure and Serum Lipids in the Spontaneously Hypertensive Rat

Hypertension in various experimental models, including spontaneously hypertensive rats (SHR), is associated with elevated rates of vascular collagen synthesis. The sympathetic nervous system is an important factor in the etiology of hypertension in SHR. The primary purpose of this study was to determine the effects of the α1adrener-gic receptor antagonist doxazosin on aortic collagen synthesis and on systolic arterial pressure in SHR. Doxazosin was administered either short-term (20 or 200 mg/kg/day by gavage over 5 days) or long-term (0.02 or 0.20 g/L in the drinking water over 8 weeks). Rates of collagen synthesis were determined by incubating aortic segments with 14C-proline in vitro and then measuring either the formation of 14C-hydroxyproline by means of high-performance liquid chromatography, or the amount of radioactivity liberated by collagenase digestion. Systolic arterial pressure was monitored with the standard tail-cuff technique. Both doses of doxazosin depressed aortic collagen synthesis at 8 weeks of treatment, but neither dose had any effect at 4 weeks. In the short-term study only the higher acute dose of doxazosin significantly reduced aortic collagen synthesis; the lower dose had no effect. In the short-term study doxazosin reduced systolic arterial pressure, with a maximum effect at 1–2 days. Tolerance to the depressor effect developed over the remaining 3–4 days, especially with the higher dose. In the 8-week study, the lower doxazosin dose had no effect on systolic arterial pressure, and the higher dose exerted a biphasic effect, moderately but significantly reducing systolic arterial pressure at 1 and 8 weeks of treatment. Assays of serum doxazosin levels suggested that the tolerance to the depressor effect was partially, but not completely, pharmacokinetic. The higher dose of doxazosin significantly reduced serum triglycerides, but none of the other treatment regimens affected serum lipid profiles (very-low-density, low-density or high-density lipoproteins or total cholesterol). The results suggest that the inhibition of vascular collagen synthesis by doxazosin in SHR may be to some extent independent of reductions in arterial pressure.