K Ohara scite author profile

BackgroundMicroglia and macrophages (MG/MΦ) have a diverse range of functions depending on unique cytokine stimuli, and contribute to neural cell death, repair, and remodeling during central nervous system diseases. While IL-1 has been shown to exacerbate inflammation, it has also been recognized to enhance neuroregeneration. We determined the activating phenotype of MG/MΦ and the impact of IL-1 in an in vivo spinal cord injury (SCI) model of IL-1 knock-out (KO) mice. Moreover, we demonstrated the contribution of IL-1 to both the classical and alternative activation of MG in vitro using an adult MG primary culture.MethodsSCI was induced by transection of the spinal cord between the T9 and T10 vertebra in wild-type and IL-1 KO mice. Locomotor activity was monitored and lesion size was determined for 14 days. TNFα and Ym1 levels were monitored to determine the MG/MΦ activating phenotype. Primary cultures of MG were produced from adult mice, and were exposed to IFNγ or IL-4 with and without IL-1β. Moreover, cultures were exposed to IL-4 and/or IL-13 in the presence and absence of IL-1β.ResultsThe locomotor activity and lesion area of IL-1 KO mice improved significantly after SCI compared with wild-type mice. TNFα production was significantly suppressed in IL-1 KO mice. Also, Ym1, an alternative activating MG/MΦ marker, did not increase in IL-1 KO mice, suggesting that IL-1 contributes to both the classical and alternative activation of MG/MΦ. We treated primary MG cultures with IFNγ or IL-4 in the presence and absence of IL-1β. Increased nitric oxide and TNFα was present in the culture media and increased inducible NO synthase was detected in cell suspensions following co-treatment with IFNγ and IL-1β. Expression of the alternative activation markers Ym1 and arginase-1 was increased after exposure to IL-4 and further increased after co-treatment with IL-4 and IL-1β. The phenotype was not observed after exposure of cells to IL-13.ConclusionsWe demonstrate here in in vivo experiments that IL-1 suppressed SCI in a process mediated by the reduction of inflammatory responses. Moreover, we suggest that IL-1 participates in both the classical and alternative activation of MG in in vivo and in vitro systems.

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High bone turnover elevates the risk of denosumab-induced hypocalcemia in women with postmenopausal osteoporosis

Ishikawa¹,

Nagai²,

Sakamoto³

et al. 2016

TCRM

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Hypocalcemia is the most common major adverse event in patients with osteoporosis receiving the bone resorption inhibitor denosumab; however, limited information is available regarding risk factors of hypocalcemia. Therefore, this study aimed to identify the risk factors of hypocalcemia induced by denosumab treatment for osteoporosis. We retrospectively reviewed the records of patients who had received initial denosumab supplemented with activated vitamin D for osteoporosis. Serum levels of the following bone turnover markers (BTMs) were measured at baseline: bone-specific alkaline phosphatase (BAP), total N-terminal propeptide of type 1 procollagen (P1NP), tartrate-resistant acid phosphatase 5b (TRACP-5b), and urinary cross-linked N-telopeptide of type 1 collagen (NTX). Of the 85 denosumab-treated patients with osteoporosis studied, 22 (25.9%) developed hypocalcemia. Baseline serum total P1NP, TRACP-5b, and urinary NTX were significantly higher in patients with hypocalcemia than in those with normocalcemia following denosumab administration (all P<0.01). Multivariate logistic regression analysis revealed that patients with total P1NP >76.5 μg/L, TRACP-5b >474 mU/dL, or urinary NTX >49.5 nmol bone collagen equivalent/mmol creatinine had a higher risk of hypocalcemia (P<0.01). Our study suggests that denosumab may have a greater impact on serum calcium levels in patients with postmenopausal osteoporosis with higher baseline bone turnover than in patients with postmenopausal osteoporosis with normal baseline bone turnover, because maintenance of normal serum calcium in this subgroup is more dependent on bone resorption. Close monitoring of serum calcium levels is strongly recommended for denosumab-treated patients with high bone turnover, despite supplementation with activated vitamin D and oral calcium.

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Genetic development of an inbred rat strain with increased resistance adaptation to a hot environment

Furuyama

Ohara

1993

American Journal of Physiology-Regulatory, Integrative and Comp

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The purpose of this study was to demonstrate resistance adaptation based on genotypic adaptation and to develop an inbred rat strain with genotypic resistance adaptation to a hot environment. Survival time (ST) at an ambient temperature (Ta) of 42.5 degrees C was determined without appreciable thermal damage. Rats with the longest ST were sibmated over 30 generations and designated FOK. The ST, evaporative water loss, and body water economy increased rapidly during the first 10-15 generations, followed by a more gradual increase. The FOK rat resisted a Ta of 42.5 degrees C for > 5 h; this ability was hereditary. Body size progressively decreased during the early generations. The ST was longer (P < 0.01) and evaporative water loss was significantly higher (P < 0.01) in the FOK rat compared with three other strains. Tail lengths in the FOK rat were slightly shorter than those of three controls (P < 0.01). The heat loss system in the FOK rat may depend on the ability to mobilize and evaporate body fluids efficiently. FOK rats can be used for phenotypic comparisons with other strains, as well as in molecular genetic studies on thermoregulation, osmoregulation, and resistance adaptation to heat using recombinant inbred and recombinant congenic lines.

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Regulation of Oxidative Stress by Pituitary Adenylate Cyclase-Activating Polypeptide (PACAP) Mediated by PACAP Receptor

et al. 2010

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Pituitary adenylate cyclase-activating polypeptide (PACAP) is a multifunctional peptide that has been shown to be neuroprotective following a diverse range of cell injuries. Although several mechanisms regulating this effect have been reported, no direct evidence has linked PACAP to the regulation of oxidative stress, despite the fact that oxidative stress is a factor in the injury progression that occurs in most models. In the present study, we investigated the plasma oxidative metabolite and anti-oxidation potential levels of PACAP-deficient mice, as well as those of wild-type animals treated with PACAP38. These were assayed by the determination of Reactive Oxidative Metabolites (d-ROMs) and the Biological Anti-oxidant Potential (BAP) using the Free Radical Electron Evaluator system. We also investigated the direct radical scavenging potency of PACAP38 and the functional role of its receptor in the regulation of oxidative stress by PACAP, by using vasoactive intestinal peptide (VIP) and the PACAP receptor antagonist, PACAP6-38. Although younger PACAP null mice displayed no significant effect, greater d-ROMs and lower BAP values were recorded in older animals than in their wild-type littermates. Intravenous injection of PACAP38 in wild-type mice decreased the plasma d-ROMs and BAP values in a dose-dependent manner. These effects were not reproduced using VIP and were abolished by co-treatment with PACAP38 and the PAC1R antagonist PACAP6-38. Taken together, these results suggest that PACAP plays an important role in the physiological regulation of oxidative stress.

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K Ohara

Interleukin-1 participates in the classical and alternative activation of microglia/macrophages after spinal cord injury

High bone turnover elevates the risk of denosumab-induced hypocalcemia in women with postmenopausal osteoporosis

Genetic development of an inbred rat strain with increased resistance adaptation to a hot environment

Regulation of Oxidative Stress by Pituitary Adenylate Cyclase-Activating Polypeptide (PACAP) Mediated by PACAP Receptor

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