Dendritic pathology and overexpression of MAP2 in Purkinje cells from mice inoculated with rabies virus.

The effect of rabies virus infection on dendritic morphology and on the expression of the MAP2 protein in Purkinje cells in the cerebellum of mice was studied. ICR mice were inoculated with rabies virus, and six days later, the mice were sacrificed, the cerebellum was removed and processed for Golgi-Cox staining or MAP2 immunohistochemistry. Infection with rabies virus altered the dendritic pattern of Purkinje cells ranged from moderate changes to accentuated retraction in the dendritic tree of some Purkinje cells.

NAD+ METABOLISM RESTRICTION BOOSTS HIGH-DOSE MELPHALAN EFFICACY IN PATIENTS WITH MULTIPLE MYELOMA.

Elevated levels of the nicotinamide adenine dinucleotide (NAD+)-generating enzyme nicotinamide phosphoribosyltransferase (NAMPT) are a common feature across numerous cancer types. Accordingly, we previously reported pervasive NAD+ dysregulation in Multiple Myeloma (MM) cells in association with upregulated NAMPT expression. Unfortunately, albeit being effective in preclinical models of cancer, NAMPT inhibition has proven ineffective in clinical trials due to the existence of alternative NAD+ production routes utilizing NAD+ precursors other than nicotinamide.

Senolytics rejuvenate aging cardiomyopathy in human cardiac organoids.

Background: Human cardiac organoids closely replicate the architecture and function of the human heart, offering a potential accurate platform for studying cellular and molecular features of aging cardiomyopathy. Senolytics have shown potential in addressing age-related pathologies but their potential to reverse aging-related human cardiomyopathy remains largely unexplored.

Methods: We employed human iPSC-derived cardiac organoids (hCOs/hCardioids) to model doxorubicin(DOXO)-induced cardiomyopathy in an aged context.

A triplicated wheat-rye chromosome segment including several 12-OXOPHYTODIENOATE REDUCTASE III genes influences magnesium partitioning and impacts wheat performance at low magnesium supply.

We previously reported a structural rearrangement between wheat (Triticum aestivum) and rye (Secale cereale) chromosomes 1BS/1RS that increased the dosage of 12-OXOPHYTODIENOATE REDUCTASE III (OPRIII) genes involved in jasmonate biosynthesis (henceforth, 1RW line), and that drastically reduced primary root growth relative to a control line with the intact 1RS chromosome (henceforth, 1RS). In this study, we show that the increased gene-dosage of this region is associated with increases in the shoot-root partitioning of magnesium (Mg). Moreover, both a CRISPR-edited 1RW line with reduced OPRIII dosage and the 1RW line treated with the jasmonate biosynthesis inhibitor ibuprofen showed reduced differences in shoot-root Mg partitioning than 1RW.