Neuroblastoma Occurring in Nijmegen Breakage Syndrome.

Nijmegen breakage syndrome (NBS) is a rare primary immunodeficiency disease due to a pathogenic variant in the NBN gene causing impaired DNA repair and increased predisposition for lymphoid malignancy. By contrast, solid tumors have been rarely reported. Neuroblastoma (NB) is a rare childhood solid tumor, associated with the worse outcome if MYCN oncogene is amplified.

Immune receptors and aging brain.

Aging brings about a myriad of degenerative processes throughout the body. A decrease in cognitive abilities is one of the hallmark phenotypes of aging, underpinned by neuroinflammation and neurodegeneration occurring in the brain. This review focuses on the role of different immune receptors expressed in cells of the central and peripheral nervous systems.

, , and Variants: Genetic Modifiers of Duchenne Muscular Dystrophy Analyzed in Serbian Patients.

Background: Clinical course variability in Duchenne muscular dystrophy (DMD) is partially explained by the mutation location in the gene and variants in modifier genes. We assessed the effect of the , , and genes and mutation location on loss of ambulation (LoA).

Methods: SNPs in -rs28357094, -rs2303729, rs1131620, rs1051303, rs10880, and -rs1883832 were genotyped, and their effect was assessed by survival and hierarchical cluster analysis.

The nonclassical MHC class I Qa-1 expressed in layer 6 neurons regulates activity-dependent plasticity via microglial CD94/NKG2 in the cortex.

During developmental critical periods, circuits are sculpted by a process of activity-dependent competition. The molecular machinery involved in regulating the complex process of responding to different levels of activity is now beginning to be identified. Here, we show that the nonclassical major histocompatibility class I (MHCI) molecule Qa-1 is expressed in the healthy brain in layer 6 corticothalamic neurons.

Minimizing Hypoxia in Hippocampal Slices from Adult and Aging Mice.

Acute hippocampal slices have enabled generations of neuroscientists to explore synaptic, neuronal, and circuit properties in detail and with high fidelity. Exploration of LTP and LTD mechanisms, single neuron dendritic computation, and experience-dependent changes in circuitry, would not have been possible without this classical preparation. However, with a few exceptions, most basic research using acute hippocampal slices has been performed using slices from rodents of relatively young ages, ~P20-P40, even though synaptic and intrinsic excitability mechanisms have a long developmental tail that reaches past P60.