Characterization of a cathepsin D protease from CHO cell‐free medium and mitigation of its impact on the stability of a recombinant therapeutic protein

During purification process development of a recombinant therapeutic protein, an endoproteolytic activity endogenous to the Chinese hamster ovary (CHO) cells and leading to degradation at particular hydrophobic amino acid residues (e.g., Phe and Trp) was observed when processing at acidic pH. The presence of residual levels of protease activity in purified protein batches affected the inherent activity of the product when stored as a solution. To develop a robust purification strategy to minimize this undesirable impact, identification and characterization of this protease was essential to ultimately ensure that a solution formulation was stable for many years. A protease was isolated from CHO cell‐free medium (CFM) using a combination of immobilized pepstatin‐A agarose chromatography and size exclusion chromatography (SEC). The isolated protease has significant proteolytic activity at pH ～ 3 to neutral pH and was identified as cathepsin D by mass spectrometry. Analytical SEC, chip‐based capillary gel electrophoresis, imaged capillary isoelectric focusing (cIEF), and circular dichroism (CD) spectropolarimetry analyses were performed for additional characterization of the protease. The identification and characterization of this protease enabled the development of a robust purification process by implementation of a controlled temperature inactivation unit operation (heat inactivation) that enabled essentially complete inactivation of the protease, resulting in the production of a stable drug product that had not been possible using column chromatography alone. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 34:120–129, 2018     

Constitutive steroidogenesis in ovine large luteal cells may be mediated by tonically active protein kinase A

The mechanisms responsible for the increased basal rates of progesterone secretion from large steroidogenic luteal cells (LLC) relative to small steroidogenic luteal cells (SLC) have not been clearly defined. To determine if protein kinase A (PKA) is tonically active in LLC, the adenylate cyclase activator forskolin and a specific PKA inhibitor (PKI) were utilized in a 2 x 2 factorial treatment with each steroidogenic cell type. Progesterone and cAMP production were quantified after the different treatments. In addition, the effects of the treatments on the concentrations and relative phosphorylation status of the steroidogenic acute regulatory (STAR) protein in the two cell types were determined as a measure of PKA activity. Treatment with PKI blocked forskolin-induced increases in progesterone secretion by SLC without affecting the production of cAMP. The treatment of LLC with PKI significantly decreased basal progesterone secretion in the presence or absence of forskolin, indicating that the high level of steroidogenesis in this cell type requires PKA activity. There were no differences in the steady-state concentrations of STAR protein in either cell type after treatment. However, the percentage of relative STAR phosphorylation was higher in the LLC than in SLC, and PKI treatment significantly decreased the phosphorylation of STAR in the LLC. The relative phosphorylation status of STAR and the concentrations of progesterone in the media were significantly correlated with the treatments in both cell types. The amount of progesterone secreted per picogram of cAMP was higher in the LLC than in the SLC, and this was accompanied by a significant increase in the ratio of relative STAR phosphorylation to the steady-state concentration of STAR protein. These data are compatible with the theory that LLC are constitutively steroidogenic, partly because they have tonically active PKA. In addition, the phosphorylation of STAR appears to be a primary activity of PKA in both types of ovine steroidogenic luteal cells.     

Risks associated with introduction of poeciliids for control of mosquito larvae: first record of the non‐native Gambusia holbrooki in Argentina

This study confirms the presence of two species of the non‐native mosquitofish Gambusia in Argentina. The risks that they represent to native biota, their potential dispersal in the region, and their effectiveness in mosquito larvae control are discussed.     

Excess cholesterol inhibits glucose‐stimulated fusion pore dynamics in insulin exocytosis

Type 2 diabetes is caused by defects in both insulin sensitivity and insulin secretion. Glucose triggers insulin secretion by causing exocytosis of insulin granules from pancreatic β‐cells. High circulating cholesterol levels and a diminished capacity of serum to remove cholesterol from β‐cells are observed in diabetic individuals. Both of these effects can lead to cholesterol accumulation in β‐cells and contribute to β‐cell dysfunction. However, the molecular mechanisms by which cholesterol accumulation impairs β‐cell function remain largely unknown. Here, we used total internal reflection fluorescence microscopy to address, at the single‐granule level, the role of cholesterol in regulating fusion pore dynamics during insulin exocytosis. We focused particularly on the effects of cholesterol overload, which is relevant to type 2 diabetes. We show that excess cholesterol reduced the number of glucose‐stimulated fusion events, and modulated the proportion of full fusion and kiss‐and‐run fusion events. Analysis of single exocytic events revealed distinct fusion kinetics, with more clustered and compound exocytosis observed in cholesterol‐overloaded β‐cells. We provide evidence for the involvement of the GTPase dynamin, which is regulated in part by cholesterol‐induced phosphatidylinositol 4,5‐bisphosphate enrichment in the plasma membrane, in the switch between full fusion and kiss‐and‐run fusion. Characterization of insulin exocytosis offers insights into the role that elevated cholesterol may play in the development of type 2 diabetes.     

Identification of Isn1 and Sdt1 as Glucose- and Vitamin-regulated Nicotinamide Mononucleotide and Nicotinic Acid Mononucleotide 5��-Nucleotidases Responsible for Production of Nicotinamide Riboside and Nicotinic Acid Riboside

Recently, we discovered that nicotinamide riboside and nicotinic acid riboside are biosynthetic precursors of NAD⁺, which are utilized through two pathways consisting of distinct enzymes. In addition, we have shown that exogenously supplied nicotinamide riboside is imported into yeast cells by a dedicated transporter, and it extends replicative lifespan on high glucose medium. Here, we show that nicotinamide riboside and nicotinic acid riboside are authentic intracellular metabolites in yeast. Secreted nicotinamide riboside was detected with a biological assay, and intracellular levels of nicotinamide riboside, nicotinic acid riboside, and other NAD⁺ metabolites were determined by a liquid chromatography-mass spectrometry method. A biochemical genomic screen indicated that three yeast enzymes possess nicotinamide mononucleotide 5′-nucleotidase activity in vitro. Metabolic profiling of knock-out mutants established that Isn1 and Sdt1 are responsible for production of nicotinamide riboside and nicotinic acid riboside in cells. Isn1, initially classified as an IMP-specific 5′-nucleotidase, and Sdt1, initially classified as a pyrimidine 5′-nucleotidase, are additionally responsible for dephosphorylation of pyridine mononucleotides. Sdt1 overexpression is growth-inhibitory to cells in a manner that depends on its active site and correlates with reduced cellular NAD⁺. Expression of Isn1 protein is positively regulated by the availability of nicotinic acid and glucose. These results reveal unanticipated and highly regulated steps in NAD⁺ metabolism.     

Molecular mechanisms of the anomalous thermal aggregation of green fluorescent protein

The peculiarities of thermal denaturation and interaction with water of the cycle-3 mutant of green fluorescent protein (GFP) were analyzed by NMR techniques and compared with those of bovine carbonic anhydrase II (BCA-II). Irreversible thermal denaturation was accompanied by massive GFP aggregation with no detectable accumulation of soluble denatured protein. Analysis of the spin diffusion data suggested that the internal part of the GFP β-can is involved in intensive interactions with water molecules. As a result, at high temperatures, the GFP structure does not unfold but rather breaks, consequently leading to enhanced protein aggregation. This is very different from typical BCA-II behavior.     

Biogeography and conservation of aquatic fauna in spring-fed tropical canyons of the southern Sonoran Desert,Mexico

In arid regions, spring-fed habitats are frequently the only year-round source of surface water and are essential habitats for aquatic organisms and primary water sources for terrestrial animals and human settlements. While these habitats have been relatively well-studied in some regions, those of the southern Sonoran Desert have received little attention. In 2008 and 2009, we documented the biodiversity of aquatic animals at 19 sites across three arid mountain ranges in Sonora, Mexico, characterized macrohabitat types, examined seasonal variation in aquatic invertebrate communities, and explored the effects of an exotic fish (tilapia) on native communities. We documented >220 aquatic animal species, including several new species and range extensions for others. Macrohabitat type (oasis, tinaja, riffle, and seep) was more important than geographic location in structuring aquatic invertebrate communities at the scale of our study area (~9,000 km²). We found little evidence of predictable seasonal variation in invertebrate communities, despite dramatic hurricane-induced flooding. Aquatic vertebrates were not diverse across the study region (4 amphibian species and 2 species each of fishes and reptiles), but were often locally abundant. Presence of non-native tilapia at one site was associated with reduced abundances of native leopard frogs and reduced richness and density of native aquatic invertebrates. The most pressing aquatic habitat conservation concerns in the region, as in other deserts, are groundwater withdrawal, unmanaged recreational visitation, and the introduction of exotic species. Spring-fed habitats around the world have been called hotspots of freshwater biodiversity, and those of the Sonoran Desert are no exception.     

Anthelmintics for ruminants

There is now a wide range of potent broad-spectrum anthelmintics for cattle and small ruminants, including the benzimidazoles, the avermectins, tetrahydropyrimidines and imidothiazoles which are highly efficacious against parasite gastroenteritis and bronchitis. Fascioliasis can be controlled with the salicy-lanilide and related phenolic compounds, the benzimidazoles, albendazole and triclabendazole the latter being the first flukicide with excellent activity against all stages of liver fluke infestation.The major developments for anthelmintic therapy have been and will be in the use of intraruminal boluses with either sustained release or pulse release of anthelmintic and other methods for group medication. The implications of such strategies for helminth resistance and individual immunity require further evaluation.