Production of active single-chain antibodies in seeds using trimeric polyoleosin fusion

A variety of single-chain variable fragments (scFv) that had been previously developed to the surface epitopes of infective Trichostrongylus colubriformis L3 pathogenic gut nematodes of sheep were fused to a trimeric version of polyoleosin (three head-to-tail repeats of oleosin) and expressed in planta under the control of an Arabidopsis oleosin promoter. The fusion products were found to accumulate in oil bodies (OBs) at the range of 0.25-0.9% of the total seed protein which is comparable with the main 18kDa isoform of Arabidopsis seed oleosin. Immunofluorescence microscopy and immuno-binding were used to demonstrate that it is possible to both purify the recombinant protein via enrichment for OBs as well as use the OBs emulsion to deliver functional recombinant scFv. This work presents a novel fusion strategy platform to boost the productivity and simplify the delivery of recombinant single chain antibodies and other like proteins.     

Hexokinases link DJ-1 to the PINK1/parkin pathway

Background

Hyperexcitability of neuronal networks can lead to excessive release of the excitatory neurotransmitter glutamate, which in turn can cause neuronal damage by overactivating NMDA-type glutamate receptors and related signaling pathways. This process (excitotoxicity) has been implicated in the pathogenesis of many neurological conditions, ranging from childhood epilepsies to stroke and neurodegenerative disorders such as Alzheimer’s disease (AD). Reducing neuronal levels of the microtubule-associated protein tau counteracts network hyperexcitability of diverse causes, but whether this strategy can also diminish downstream excitotoxicity is less clear.

Methods

We established a cell-based assay to quantify excitotoxicity in primary cultures of mouse hippocampal neurons and investigated the role of tau in exicitotoxicity by modulating neuronal tau expression through genetic ablation or transduction with lentiviral vectors expressing anti-tau shRNA or constructs encoding wildtype versus mutant mouse tau.

Results

We demonstrate that shRNA-mediated knockdown of tau reduces glutamate-induced, NMDA receptor-dependent Ca²⁺ influx and neurotoxicity in neurons from wildtype mice. Conversely, expression of wildtype mouse tau enhances Ca²⁺ influx and excitotoxicity in tau-deficient (Mapt ^−/−) neurons. Reconstituting tau expression in Mapt ^−/− neurons with mutant forms of tau reveals that the tau-related enhancement of Ca²⁺ influx and excitotoxicity depend on the phosphorylation of tau at tyrosine 18 (pY18), which is mediated by the tyrosine kinase Fyn. These effects are most evident at pathologically elevated concentrations of glutamate, do not involve GluN2B–containing NMDA receptors, and do not require binding of Fyn to tau’s major interacting PxxP motif or of tau to microtubules.

Conclusions

Although tau has been implicated in diverse neurological diseases, its most pathogenic forms remain to be defined. Our study suggests that reducing the formation or level of pY18-tau can counteract excitotoxicity by diminishing NMDA receptor-dependent Ca²⁺ influx.

     

α-Synuclein and neuronal cell death

Mutations in the DJ-1 gene have been linked to autosomal recessive familial Parkinson's disease. To understand the function of DJ-1, we determined the DJ-1 expression in both zebrafish and post mortem human brains. We found that DJ-1 was expressed early during zebrafish development and throughout adulthood. Knock down (KD) of DJ-1 by injection of morpholino did not cause dramatic morphologic alterations during development, and no loss of dopaminergic neurons was observed in embryos lacking DJ-1. However, DJ-1 KD embryos were more susceptible to programmed cell death. While a slight reduction in staining for islet-1 positive neurons was observed in both DJ-1 KD and H₂O₂ treated embryos, the number of apoptotic cells was significantly increased in both KD and H₂O₂ treated embryos. Interestingly, DJ-1 expression was increased in brains of zebrafish under conditions of oxidative stress, indicating that DJ-1 is a part of stress-responsive machinery. Since oxidative stress is one of the major contributors to the development of Alzheimer's disease (AD), we also examined DJ-1 expression in AD brains. Using DJ-1 specific antibodies, we failed to detect a robust staining of DJ-1 in brain tissues from control subjects. However, DJ-1 immunoreactivity was detected in hippocampal pyramidal neurons and astrocytes of AD brains. Therefore, our results strongly suggest that DJ-1 expression is not necessary during zebrafish development but can be induced in zebrafish exposed to oxidative stress and is present in human AD brains.     

The stimulation of cell extension by ethylene and auxin in aquatic plants

Elongation of the shoots of three aquatic plants (Hydrocharis morsus-ranae, Regnellidium diphyllum and Ranunculus sceleratus) is stimulated by treatment with ethylene or IAA. The effects of the two hormones are additive, and experiments with an ethylene biosynthesis inhibitor and silver ions indicate that the mechanisms by which ethylene and IAA stimulate growth may be different. Hydrocharis and Ranunculus leaf discs synthesize [¹⁴C]ethylene from [¹⁴C]methionine, but no [¹⁴C]ethylene is formed by Regnellidium, suggesting the existence of an alternative pathway of ethylene biosynthesis in the fern.Abbreviations IAA Indole-3-acetic acid - RBA 1,2-amino-4-(2-aminoethoxy)-trans-3-butenoic acid     

Differential protein–protein interactions of LRRK1 and LRRK2 indicate roles in distinct cellular signaling pathways

Genetic studies show that LRRK2, and not its closest paralogue LRRK1, is linked to Parkinson's disease. To gain insight into the molecular and cellular basis of this discrepancy, we searched for LRRK1‐ and LRRK2‐specific cellular processes by identifying their distinct interacting proteins. A protein microarray‐based interaction screen was performed with recombinant 3xFlag‐LRRK1 and 3xFlag‐LRRK2 and, in parallel, co‐immunoprecipitation followed by mass spectrometry was performed from SH‐SY5Y neuroblastoma cell lines stably expressing 3xFlag‐LRRK1 or 3xFlag‐LRRK2. We identified a set of LRRK1‐ and LRRK2‐specific as well as common interactors. One of our most prominent findings was that both screens pointed to epidermal growth factor receptor (EGF‐R) as a LRRK1‐specific interactor, while 14‐3‐3 proteins were LRRK2‐specific. This is consistent with phosphosite mapping of LRRK1, revealing phosphosites outside of 14‐3‐3 consensus binding motifs. To assess the functional relevance of these interactions, SH‐SY5Y‐LRRK1 and ‐LRRK2 cell lines were treated with LRRK2 kinase inhibitors that disrupt 14‐3‐3 binding, or with EGF, an EGF‐R agonist. Redistribution of LRRK2, not LRRK1, from diffuse cytoplasmic to filamentous aggregates was observed after inhibitor treatment. Similarly, EGF induced translocation of LRRK1, but not of LRRK2, to endosomes. Our study confirms that LRRK1 and LRRK2 can carry out distinct functions by interacting with different cellular proteins.

     

Estrogenic side effects of androgen deprivation therapy

Androgen deprivation therapy (ADT) is part of standard therapy for locally advanced or metastatic prostate cancer and is frequently used in men with a rising prostate-specific antigen following radical prostatectomy or radiation therapy. In some men, ADT may be administered for years or even decades. The intended therapeutic effect of ADT is testosterone deficiency. Because estrogen is a normal metabolite of testosterone, ADT also results in estrogen deficiency. ADT has a variety of adverse effects, many of which are primarily related to estrogen deficiency. Bone mineral density may decrease by 4% to 13% per year in men receiving ADT. The fracture rate for patients on ADT averages 5% to 8% per year of therapy. Hot flashes, gynecomastia, and breast tenderness are common side effects associated with ADT. In the clinic, minimum baseline testing should include weight measurement, blood pressure reading, and fasting lipid panel and serum glucose tests. Currently, there are no large outcome trials in men on ADT testing the available therapies for adverse effects. No therapies are specifically approved for treatment of adverse effects in men on ADT. Although some therapies can be used for a single indication (based upon small studies), there is currently no agent to treat the multiple estrogenic side effects of ADT.     

GRR: graphical representation of relationship errors

SUMMARY: A graphical tool for verifying assumed relationships between individuals in genetic studies is described. GRR can detect many common errors using genotypes from many markers. AVAILABILITY: GRR is available at http://bioinformatics.well.ox.ac.uk/GRR.