Notes

Appendicular Lean Mass, Grasp Power, and also the Continuing development of Hospital-Associated Activities associated with Everyday living Impairment amongst Older Adults within the Wellness ABC Study.
08).

Ibudilast treatment was associated with a reduction in gray matter atrophy. Ibudilast treatment was not associated with a reduction in new or enlarging T2 lesions or new T1 lesions. An effect on brain volume contributes to prior data that ibudilast appears to affect markers associated with neurodegenerative processes, but not inflammatory processes.

This study provides Class II evidence that for people with MS, ibudilast does not significantly reduce new or enlarging T2 lesions or new T1 lesions.
This study provides Class II evidence that for people with MS, ibudilast does not significantly reduce new or enlarging T2 lesions or new T1 lesions.
To conduct a comprehensive analysis of circulating metabolites and incident stroke in large prospective population-based settings.

We investigated the association of metabolites with risk of stroke in seven prospective cohort studies including 1,791 incident stroke events among 38,797 participants in whom circulating metabolites were measured by Nuclear Magnetic Resonance (
H-NMR) technology. The relationship between metabolites and stroke was assessed using Cox proportional hazards regression models. Selleck Seclidemstat The analyses were performed considering all incident stroke events and ischemic and hemorrhagic events separately.

The analyses revealed ten significant metabolite associations. Amino acid histidine (hazard ratio (HR) per standard deviation (SD) = 0.90, 95% confidence interval (CI) 0.85, 0.94;
= 4.45×10
), glycolysis-related metabolite pyruvate (HR per SD = 1.09, 95% CI 1.04, 1.14;
= 7.45×10
), acute phase reaction marker glycoprotein acetyls (HR per SD = 1.09, 95% CI 1.03, 1.15;
= 1.27×10
), cholesterol in high-density lipoprotein (HDL) 2 and several other lipoprotein particles were associated with risk of stroke. When focusing on incident ischemic stroke, a significant association was observed with phenylalanine (HR per SD = 1.12, 95% CI 1.05, 1.19;
4.13×10
) and total and free cholesterol in large HDL particles.

We found association of amino acids, glycolysis-related metabolites, acute phase reaction markers, and several lipoprotein subfractions with the risk of stroke. These findings support the potential of metabolomics to provide new insights into the metabolic changes preceding stroke.
We found association of amino acids, glycolysis-related metabolites, acute phase reaction markers, and several lipoprotein subfractions with the risk of stroke. These findings support the potential of metabolomics to provide new insights into the metabolic changes preceding stroke.
To analyze the association between peri-ictal brainstem posturing semiologies with postictal generalized electroencephalographic suppression (PGES) and breathing dysfunction in generalized convulsive seizures (GCS).

In this prospective, multicenter analysis of GCS, ictal brainstem semiology was classified as (1) decerebration (bilateral symmetric tonic arm extension), (2) decortication (bilateral symmetric tonic arm flexion only), (3) hemi-decerebration (unilateral tonic arm extension with contralateral flexion) and (4) absence of ictal tonic phase. Postictal posturing was also assessed. Respiration was monitored with thoracoabdominal belts, video, and pulse oximetry.

Two hundred ninety-five seizures (180 patients) were analyzed. Ictal decerebration was observed in 122 of 295 (41.4%), decortication in 47 of 295 (15.9%), and hemi-decerebration in 28 of 295 (9.5%) seizures. Tonic phase was absent in 98 of 295 (33.2%) seizures. Postictal posturing occurred in 18 of 295 (6.1%) seizures. PGES risk increased ri-ictal brainstem posturing is associated with the GCS with more prolonged PGES and more severe breathing dysfunction.Aging and death of cells (cellular senescence and apoptosis, respectively), triggered by or associated with cellular stress and DNA damage, impair organ function and homeostasis, leading to organismal aging and death. On the other hand, defects in physiologic regulations of cellular aging and death (escape from cellular senescence and failed apoptosis of severely damaged cells) contribute to uncontrolled cell division and genetic instability in cancer. In an oversimplified scenario, p53, an inducer of cellular senescence and apoptosis, may thus unfavorably contribute to aging and favorably suppress tumorigenesis. link2 However, physiologic mechanisms should exist and therapeutic approaches may be developed to balance between aging and tumor suppression, for example, by differentially regulating cellular senescence, apoptosis, and other p53-mediated biological processes, such as DNA repair, autophagy, and energy metabolism. Possible mechanisms for such differential regulation of different subsets of p53 target genes may involve posttranslational modifications (e.g., phosphorylation and acetylation) and DNA binding cooperativity of p53. In this issue of Cancer Research, Timofeev and colleagues show that a previously uncharacterized phosphorylation in the p53 core DNA-binding domain regulates the DNA binding cooperativity and transcriptional activity of p53. Their mice deficient for this p53 phosphorylation were resistant to spontaneous and induced tumorigenesis, while they had shortened lifespan, but did not show progeria-like phenotypes. Prompted by this study, research on p53, aging, and cancer will explore balancing and differentiating different p53 activities toward a challenging goal of achieving longevity with no cancer.See related article by Timofeev et al., p. 5231.The family of GABAA receptors is an important drug target group in the treatment of sleep disorders, anxiety, epileptic seizures, and many others. The most frequent GABAA receptor subtype is composed of two α-, two β-, and one γ2-subunit, whereas the nature of the α-subunit critically determines the properties of the benzodiazepine binding site of those receptors. Nearly all of the clinically relevant drugs target all GABAA receptor subtypes equally. In the past years, however, drug development research has focused on studying α5-containing GABAA receptors. Beyond the central nervous system, α5-containing GABAA receptors in airway smooth muscles are considered as an emerging target for bronchial asthma. Here, we investigated a novel compound derived from the previously described imidazobenzodiazepine SH-053-2'F-R-CH3 (SH53d-ester). link3 Although SH53d-ester is only moderately selective for α5-subunit-containing GABAA receptors, the derivative SH53d-acid shows superior (>40-fold) affinity selectivity and is a posite predictions to provide hypotheses for the improved affinity to this receptor subtype. Mutational analysis confirmed the hypotheses, indicating that loop C of the GABAA receptor α-subunit is the dominant molecular determinant of drug selectivity.The large-conductance calcium-activated potassium channel (BKCa channel) is expressed on various tissues and is involved in smooth muscle relaxation. The channel is highly expressed on urinary bladder smooth muscle cells and regulates the repolarization phase of the spontaneous action potentials that control muscle contraction. To discover novel chemical activators of the BKCa channel, we screened a chemical library containing 8364 chemical compounds using a cell-based fluorescence assay. A chemical compound containing an isoxazolyl benzene skeleton (compound 1) was identified as a potent activator of the BKCa channel and was structurally optimized through a structure-activity relationship study to obtain 4-(4-(4-chlorophenyl)-3-(trifluoromethyl)isoxazol-5-yl)benzene-1,3-diol (CTIBD). When CTIBD was applied to the treated extracellular side of the channel, the conductance-voltage relationship of the channel shifted toward a negative value, and the maximum conductance increased in a concentration-dependent mantics.Data indicate that ultrahigh dose rate (>106 Gy/second) FLASH radiotherapy (FLASH-RT) delivery of radiation reduces normal tissue damage without compromising tumor response. Orthotopic glioblastoma mouse studies now demonstrate that radiation fraction size, total dose, and number of fractions are critical parameters for FLASH-RT cognitive sparing without compromising tumor response.See related article by Montay-Gruel et al., p. 775.Stereotyped B-cell receptors (BCR) are frequent in patients with chronic lymphocytic leukemia (CLL). In cell culture and in mouse models of CLL, immunogenic epitopes of these BCRs were shown to trigger specific T-cell responses and to control leukemia development. These results suggest vaccination with autologous BCR-derived peptides as a novel therapy for CLL.See related article by Rovida et al., p. 729.G protein-coupled receptors (GPCRs) are a large family comprising >800 signaling receptors that regulate numerous cellular and physiologic responses. GPCRs have been implicated in numerous diseases and represent the largest class of drug targets. Although advances in GPCR structure and pharmacology have improved drug discovery, the regulation of GPCR function by diverse post-translational modifications (PTMs) has received minimal attention. Over 200 PTMs are known to exist in mammalian cells, yet only a few have been reported for GPCRs. Early studies revealed phosphorylation as a major regulator of GPCR signaling, whereas later reports implicated a function for ubiquitination, glycosylation, and palmitoylation in GPCR biology. Although our knowledge of GPCR phosphorylation is extensive, our knowledge of the modifying enzymes, regulation, and function of other GPCR PTMs is limited. In this review we provide a comprehensive overview of GPCR post-translational modifications with a greater focus on new discoveries.Early evolution of the motor cortex included development of connections to brainstem reticulospinal neurons; these projections persist in primates. In this study, we examined the organization of corticoreticular connections in five macaque monkeys (one male) using both intracellular and extracellular recordings from reticular formation neurons, including identified reticulospinal cells. Synaptic responses to stimulation of different parts of primary motor cortex (M1) and supplementary motor area (SMA) bilaterally were assessed. Widespread short latency excitation, compatible with monosynaptic transmission over fast-conducting pathways, was observed, as well as longer latency responses likely reflecting a mixture of slower monosynaptic and oligosynaptic pathways. There was a high degree of convergence 56% of reticulospinal cells with input from M1 received projections from M1 in both hemispheres; for SMA, the equivalent figure was even higher (70%). Of reticulospinal neurons with input from the cortex, 78% recns could maintain transmission of voluntary commands to the spinal cord after damage (e.g., after stroke or spinal cord injury), possibly assisting recovery of function.Elucidation of the mechanism of dopamine signaling to ERK that underlies plasticity in dopamine D1 receptor-expressing neurons leading to acquired cocaine preference is incomplete. NCS-Rapgef2 is a novel cAMP effector, expressed in neuronal and endocrine cells in adult mammals, that is required for D1 dopamine receptor-dependent ERK phosphorylation in mouse brain. In this report, we studied the effects of abrogating NCS-Rapgef2 expression on cAMP-dependent ERK→Egr-1/Zif268 signaling in cultured neuroendocrine cells; in D1 medium spiny neurons of NAc slices; and in either male or female mouse brain in a region-specific manner. NCS-Rapgef2 gene deletion in the NAc in adult mice, using adeno-associated virus-mediated expression of cre recombinase, eliminated cocaine-induced ERK phosphorylation and Egr-1/Zif268 upregulation in D1-medium spiny neurons and cocaine-induced behaviors, including locomotor sensitization and conditioned place preference. Abrogation of NCS-Rapgef2 gene expression in mPFC and BLA, by crossing mice bearing a floxed Rapgef2 allele with a cre mouse line driven by calcium/calmodulin-dependent kinase IIα promoter also eliminated cocaine-induced phospho-ERK activation and Egr-1/Zif268 induction, but without effect on the cocaine-induced behaviors.
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