Efficient transduction and optogenetic stimulation of retinal bipolar cells by a synthetic adeno-associated virus capsid and promoter

In this report, we describe the development of a modified adeno-associated virus (AAV) capsid and promoter for transduction of retinal ON-bipolar cells. The bipolar cells, which are post-synaptic to the photoreceptors, are important retinal targets for both basic and preclinical research. In particular, a therapeutic strategy under investigation for advanced forms of blindness involves using optogenetic molecules to render ON-bipolar cells light-sensitive. Currently, delivery of adequate levels of gene expression is a limiting step for this approach. The synthetic AAV capsid and promoter described here achieves high level of optogenetic transgene expression in ON-bipolar cells. This evokes high-frequency (∼100 Hz) spiking responses in ganglion cells of previously blind, rd1, mice. Our vector is a promising vehicle for further development toward potential clinical use.

Plant thioredoxins: the multiplicity conundrum

Thioredoxins are small proteins distinguished by the presence of a conserved dicysteine active site. In oxidized thioredoxin, the two cysteines form a disulfide bond that is targeted by the enzyme thioredoxin reductase. Together with an electron donor, thioredoxin and thioredoxin reductase form the 'thioredoxin system' that is present in all organisms. Thioredoxins participate in dithiol/disulfide exchange reactions with a large range of cellular substrates. Higher plants possess a very complex thioredoxin profile consisting of at least two different thioredoxin systems that contain distinct, multigenic thioredoxin classes which have different intracellular localizations. In this review we summarise the current state of knowledge regarding the function of plant thioredoxins representing all systems and classes.

Cloning and expression of a distinct subclass of plant thioredoxins

mRNAs encoding a novel thioredoxin were isolated from pollen RNA of Lolium perenne (LpTrx), Hordeum bulbosum (HbTrx), Phalaris coerulescens (PTrx) and Secale cereale (ScTrx). The cDNAs contain a single ORF of 393 bp encoding a protein of 131 amino acids. The predicted proteins showed highest homology to plant thioredoxins of the h class yet form a distinct subgroup that is characterized by a high level of sequence conservation (95.4-97.7% identity). GenBank searches revealed additional members of this subclass in tomato, soybean, rice and pine. LpTrx and PTrx were expressed as recombinant proteins in Escherichia coli and tested for thioredoxin activity. Both proteins displayed typical thioredoxin activity in the nonspecific insulin reduction assay, however, were not reduced by E. coli NADPH-dependant thioredoxin reductase.