Genetic therapies for neurological disorders

In recent years, it has become increasingly apparent that many neurological disorders are underpinned by a genetic aetiology. This has resulted in considerable efforts to develop therapeutic strategies which can treat the disease-causing mutation, either by supplying a functional copy of the mutated gene or editing the genomic sequence. In this review, we will discuss the main genetic strategies which are currently being explored for the treatment of monogenic neurological disorders, as well as some of the challenges they face. In addition, we will address some of the ethical difficulties which may arise.

CRISPR/Cas9 Targeted Mutagenesis for Functional Genetics in Maize

The CRISPR/Cas9-based system for targeted mutagenesis has become an indispensable tool for functional genetics in plants. CRISPR/Cas9 allows users to generate loss-of-function alleles in genes of interest with precision and in a simple-to-use system. This manuscript outlines important points to consider for experimental design and utilization of CRISPR/Cas9 in targeted mutagenesis in maize. It also introduces the pRGEB32-BAR vector modified for use in maize that allows simultaneous delivery of multiple gRNAs using a simple assembly. Vector selection, gRNA design, genetic strategies, and genotyping approaches are discussed, with an emphasis on achieving isolation of homozygous mutant plants in a time- and cost-efficient manner.

Genetically Encoded CRISPR components Yield Efficient Gene Editing in the Invasive Pest,Drosophila suzukii

Originally from Asia,Drosophila suzukii(Matsumura, 1931, Diptera:Drosophilidae) is presently a global pest of economically important soft-skinned fruits. Also commonly known as spotted wingDrosophila(SWD), it is largely controlled through repeated applications of broad-spectrum insecticides. There is a pressing need for a better understanding of SWD biology and for developing alternative environmentally-friendly methods of control. The RNA-guided Cas9 nuclease has revolutionized functional genomics and is an integral component of several recently developed genetic strategies for population control of insects. Here we have developed transgenic strains that encode three different terminators and four different promoters to express Cas9 in both the soma and/or germline of SWD. The Cas9 lines were evaluated through genetic crossing to transgenic lines that encode single guide RNAs targeting the conserved X-linkedyellowbody andwhiteeye genes. We find that several Cas9/gRNA lines display very high editing capacity. Going forward, these tools will be instrumental for evaluating gene function in SWD and may provide tools useful for the development of new genetic strategies for control of this invasive species.

15-Lipoxygenase-2 Deficiency Induces a Dysfunction in Macrophages That Can Be Restored by Salidroside

15-Lipoxygenase-2(15-LOX-2) is thought to regulate inflammation and immunological function however, its mechanisms of action are still unclear. Furthermore, it has been reported that salidroside has anti inflammatory properties , but its role in macrophage function has not been understood yet In this study, we aimed to determine how 15-LOX-2 expression level s affect the function of macrophages and the effect of salidroside on 15-LOX-2 deficient macrophages We used multiple functional genetic strategies to determine 15-LOX-2 function in macrophages. 15-LOX-2 deficiency promotes phagocytosis and proliferation of macrophages and impairs their apoptosis Mechanistically, t he expression levels of cyclophilinB (CypB) were upregulated in 15-LOX-2 deficient Ana 1 macrophages, whereas those of caspase 3 were down regulated. Furthermore, RNA-seq analysis showed that inflammation, complement, and TNF-α signaling pathway s were all activated in 15-LOX-2 deficient Ana 1 macrophages. Treatment of 15-LOX-2 deficient macrophages with salidroside, a natural product derived from Rhodiola species, effectively reversed the effects of 15-LOX-2 deficiency on caspase 3 and CypB levels, as well as on apoptosis and proliferation. In conclusion, our study shows that there is a newly identified link between 15-LOX-2 deficiency and salidroside in regulating macrophage survival, proliferation, and function. Salidroside may be a promising therapeutic strategy for treating inflammation related diseases resulting from 15-LOX-2 deficiency.

Genetic dissection of glutamatergic neuron subpopulations and developmental trajectories in the cerebral cortex

ABSTRACTDiverse types of glutamatergic pyramidal neurons (PyNs) mediate the myriad processing streams and output channels of the cerebral cortex, yet all derive from neural progenitors of the embryonic dorsal telencephalon. Here, we establish genetic strategies and tools for dissecting and fate mapping PyN subpopulations based on their developmental and molecular programs. We leverage key transcription factors and effector genes to systematically target the temporal patterning programs in progenitors and differentiation programs in postmitotic neurons. We generated over a dozen of temporally inducible mouse Cre and Flp knock-in driver lines to enable combinatorial targeting of major progenitor types and projection classes. Intersectional converter lines confer viral access to specific subsets defined by developmental origin, marker expression, anatomical location and projection targets. These strategies establish an experimental framework for multi-modal characterization of PyN subpopulations and tracking their developmental trajectories toward elucidating the organization and assembly of cortical processing networks and output channels.