Growth of an Insect Trypanosomatid at 37 C in a Defined Medium*

SYNOPSIS. A defined medium for an insect trypanosomatid, “Leptomonas pessoai” (probably a member of the genus Herpetomonas) isolated from the reduviid Zelus leucogrammus, allows growth up to 37 C. No marked differences were evident for growth at 37 C. The requirements for amino acids, vitamins, purine, and hemin, and pH range were like those established for Crithidia fasciculata. Again like C. fasciculata, it remains alive at 4 C for at least 3 months in a çlycerolated defined medium.     

Zinc-induced self-assembly of goat brain tubulin: some novel aspects

Unlike normal microtubule assembly, the $\text{in vitro}$ assembly of DEAE-purified goat brain tubulin in presence of Zn(II) is not inhibited by suprastoichiometric concentrations of antimicrotubular drugs like colchicine and podophyllotoxin. However, assembly in the presence of Zn(II) is inhibited by vinblastine. Vinblastine sensitivity of the assembly process depends on the Mg(II) concentration in the assembly medium. Like normal microtubules, Zn(II)-induced polymers are sensitive to cold. The polymers assembled in presence of Zn(II) are readily disassembled on treatment with Zn(II)-chelators like EDTA or o-phenanthroline, indicating that the binding of Zn(II) to tubulin is essential for maintaining the polymeric structure.     

ABHD4 regulates adipocyte differentiation in vitro but does not affect adipose tissue lipid metabolism in mice

Alpha/beta hydrolase domain-containing protein 4 (ABHD4) catalyzes the deacylation of N-acyl phosphatidyl-ethanolamine (NAPE) and lyso-NAPE to produce glycerophospho-N-acyl ethanolamine (GP-NAE). Through a variety of metabolic enzymes, NAPE, lyso-NAPE, and GP-NAE are ultimately converted into NAE, a group of bioactive lipids that control many physiological processes including inflammation, cognition, food intake, and lipolysis (i.e., oleoylethanolamide or OEA). In a diet-induced obese mouse model, adipose tissue Abhd4 gene expression positively correlated with adiposity. However, it is unknown whether Abhd4 is a causal or a reactive gene to obesity. To fill this knowledge gap, we generated an Abhd4 knockout (KO) 3T3-L1 pre-adipocyte. During adipogenic stimulation, Abhd4 KO pre-adipocytes had increased adipogenesis and lipid accumulation, suggesting Abhd4 is responding to (a reactive gene), not contributing to (not a causal gene), adiposity, and may serve as a mechanism for protecting against obesity. However, we did not observe any differences in adiposity and metabolic outcomes between whole-body Abhd4 KO or adipocyte-specific Abhd4 KO mice and their littermate control mice (both male and female) on chow or a high-fat diet. This might be because we found that deletion of Abhd4 did not affect NAE such as OEA production, even though Abhd4 was highly expressed in adipose tissue and correlated with fasting adipose OEA levels and lipolysis. These data suggest that ABHD4 regulates adipocyte differentiation in vitro but does not affect adipose tissue lipid metabolism in mice despite nutrient overload, possibly due to compensation from other NAPE and NAE metabolic enzymes.     

Intracellular- and extracellular-derived Ca influence phospholipase A2-mediated fatty acid release from brain phospholipids

Docosahexaenoic acid (DHA) and arachidonic acid (AA) are found in high concentrations in brain cell membranes and are important for brain function and structure. Studies suggest that AA and DHA are hydrolyzed selectively from the sn-2 position of synaptic membrane phospholipids by Ca²⁺-dependent cytosolic phospholipase A₂ (cPLA₂) and Ca²⁺-independent phospholipase A₂ (iPLA₂), respectively, resulting in increased levels of the unesterified fatty acids and lysophospholipids. Cell studies also suggest that AA and DHA release depend on increased concentrations of Ca²⁺, even though iPLA₂ has been thought to be Ca²⁺-independent. The source of Ca²⁺ for activation of cPLA₂ is largely extracellular, whereas Ca²⁺ released from the endoplasmic reticulum can activate iPLA₂ by a number of mechanisms. This review focuses on the role of Ca²⁺ in modulating cPLA₂ and iPLA₂ activities in different conditions. Furthermore, a model is suggested in which neurotransmitters regulate the activity of these enzymes and thus the balanced and localized release of AA and DHA from phospholipid in the brain, depending on the primary source of the Ca²⁺ signal.     

Osmoregulation in eukaryotic algae

Abstract The cells of marine and halotolerant eukaryotic algae can achieve osmotic balance by ion accumulation mechanisms or by the synthesis and degradation of compatible solutes. The latter mechanism has been extensively studied in Dunaliella tertiolecta , in which the compatible solute glycerol is synthesised and metabolised through the glycerol cycle. Osmoregulation in Poterioochromonas malhamensis by isofloridoside as the compatible solute has a different control mechanism. The results obtained with unicellular algae might lead to strategies for the improvement of salt and water stress resistance in crop plants.     

Zobellella denitrificans strain MW1, a newly isolated bacterium suitable for poly(3-hydroxybutyrate) production from glycerol

Aims: To search for new bacteria for efficient production of polyhydroxyalkanoates (PHAs) from glycerol. Methods and Results: Samples were taken from different environments in Germany and Egypt, and bacteria capable of growing in mineral salts medium with glycerol as sole carbon source were enriched. From a wastewater sediment sample in Egypt, a Gram‐negative bacterium (strain MW1) was isolated that exhibited good growth and that accumulated considerable amounts of polyhydroxybutyrate (PHB) from glycerol and also from other carbon sources. The 16S rRNA gene sequence of this isolate exhibited 98·5% and 96·2% similarity to Zobellella denitrificans strain ZD1 and to Zobellella taiwanensis strain ZT1 respectively. The isolate was therefore affiliated as strain MW1 of Z. denitrificans. Strain MW1 grows optimally on glycerol at 41°C and pH 7·3 and accumulated PHB up to 80·4% (w/w) of cell dry weight. PHB accumulation was growth‐associated. Although it was not an absolute requirement, 20 g l^?1 sodium chloride enhanced both growth (5 g cell dry weight per litre) and PHB content (87%, w/w). Zobellella denitrificans strain MW1 is also capable to accumulate the poly(3‐hydroxybutyrate‐co‐3‐hydroxyvalerate) copolymer if sodium propionate was used as cosubstrate in addition to glycerol. Conclusions: A new PHB‐accumulating strain was isolated and identified. This strain is able to utilize glycerol for growth and PHB accumulation to high content especially in the presence of NaCl that will enable the utilization of waste glycerol from biodiesel industry. Significance and Impact of the Study: This study is the first report on accumulation of PHA in a member of the new genus Zobellella. Furthermore, utilization of glycerol as the sole carbon source for fast growth and PHB biosynthesis, growth in the presence of NaCl and high PHB contents of the cells will make this newly isolated bacterium a potent candidate for industrial production of PHB from crude glycerol occurring as byproduct during biodiesel production.     

β-Galactosidase production using glycerol and byproducts: Whey and residual glycerin

The present study aimed to evaluate β-galactosidase production by liquid-state fermentation using an experimental design and response surface methodology. A culture medium containing lactose and analytical grade glycerol was formulated to maximize β-galactosidase production. The effects of the pH, lactose, and glycerol concentration on the enzyme production were studied using a Central Composite Design (CCD; 2³ plus central points), followed by a Central Composite Rotatable Design (CCRD; 2³ plus axial and central points). The conditions that maximized β-galactosidase production were: lactose concentration of 20?g?L^?1, glycerol concentration of 60?g?L^?1, and pH 5.0. Under these conditions, the highest enzymatic activity was 40.7?U?mL^?1. Glycerol and lactose were replaced by residual glycerin and whey respectively, according to the best condition obtained in CCRD, reaching enzymatic values of 31.8?U?mL^?1, and thus demonstrating to be great alternative sources for β-galactosidase production.     

A Rapid Procedure for the Large Scale Purification of Elastase and Cathepsin G from Human Sputum

A procedure is described which permits the rapid isolation of large amounts of elastase and cathepsin G from purulent sputum. This procedure involves: (1) digestion of sputum with DNase, (2) extraction of the insoluble residue that remains with 1 M NaCl, pH 8, (3) affinity chromatography on Sepharose-bound Trasylol, and (4) separation of the two enzymes by chromatography on CM-Sephadex. Starting with 500 g of sputum it was possible to isolate 175 mg of each of these two enzymes within 7 to 10 days. Active site titration indicated both enzymes to be at least 97% pure. Disc gel electrophoresis in the presence and absence of SDS and amino acid sequence of the N-terminal region support the conclusion that the elastase and cathepsin G isolated from sputum a re identical to the same enzymes isolated directly from the leukocytes of human blood.