Renee Nelson scite author profile

This study aimed to determine the time-dependent effects of diaphragmatic inactivity on its maximum shortening velocity (V(max)) and the muscle atrophy F-box (MAF-box, atrogin-1) gene expression during controlled mechanical ventilation (CMV). Twenty-four New Zealand White rabbits were grouped into 1 day, 2 days, and 3 days of CMV and controls in equal numbers. The in vitro isotonic contractile properties of the diaphragm were determined. In addition, myosin heavy chain protein and mRNA, myosin light chain, MAF-box mRNA, and volume density of abnormal myofibrils were measured. Tetanic force decreased, and V(max) increased from control of 6.4 to 6.6, 7.7, and 8.1 muscle lengths per second after 1, 2, and 3 days of CMV, respectively (P < 0.02). The increased V(max) compensated for the decreased tetanic force; consequently, compared with the controls, maximum power output was unchanged after 3 days of CMV. V(max) correlated with the volume density of abnormal myofibrils [y = 0.1x + 5.7 (r = 0.87, P < 0.01)]. In the diaphragm, MAF-box was overexpressed (355% of control) after 1 day of CMV, before the evidence of structural myofibril disarray. In conclusion, CMV produced a time-dependent increase in V(max) that was associated with the degree of myofibrillar disarray and independent of changes in myosin isoform expression. Furthermore, CMV produced an increase in MAF-box mRNA levels that may be partially or completely responsible for the degree of myofibrillar disarray resulting from CMV.

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Kindling alters neurosteroid‐induced modulation of phasic and tonic GABA_A receptor‐mediated currents: role of phosphorylation

Kia

Ribeiro

Nelson

et al. 2011

Journal of Neurochemistry

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J. Neurochem. (2011) 116, 1043–1056. Abstract We have previously shown that after kindling (a model of temporal lobe epilepsy), the neuroactive steroid tetrahydrodeoxycorticosterone (THDOC) was unable to augment GABA type A receptor (GABAA)‐mediated synaptic currents occurring on pyramidal cells of the piriform cortex. Phosphorylation of GABAA receptors has been shown previously to alter the activity of THDOC, so we tested the hypothesis that kindling induces changes in the phosphorylation of GABAA receptors and this accounts for the loss in efficacy. To assay whether GABAA receptors are more phosphorylated after kindling, we examined the phosphorylation state of the β3 subunit and found that it was increased. Incubation of brain slices with the protein kinase C activator phorbol 12‐myristate 13‐acetate (PMA) (100 nM) also increased phosphorylation in the same assay. In patch clamp, recordings from non‐kindled rat brain slices PMA also reduced the activity of THDOC in a manner that was identical to what is observed after kindling. We also found that the tonic current was no longer augmented by THODC after kindling and PMA treatment. The protein kinase C (PKC) antagonist bisindolylmaleimide I blocked the effects PMA on the synaptic but not the tonic currents. However, the broad spectrum PKC antagonist staurosporine blocked the effects of PMA on the tonic currents, implying that different PKC isoforms phosphorylate GABAA receptors responsible for phasic and tonic currents. The phosphatase activator Li+palmitate restored the ‘normal’ activity of THDOC on synaptic currents in kindled brain slices but not the tonic currents. These data demonstrate that kindling enhances the phosphorylation state of GABAA receptors expressed in pyramidal neurons reducing THDOC efficacy.

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Acute effects of high‐dose methylprednisolone on diaphragm muscle function

et al. 2008

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The time- and dose-dependent effects of acute high-dose corticosteroids on the diaphragm muscle are poorly defined. This study aimed to examine in rabbits the temporal relationships and dose-response effects of acute high-dose methylprednisolone succinate on diaphragmatic contractile and structural properties. Animals were assigned to groups receiving: (1) 80 mg/kg/day methylprednisolone (MP80) intramuscularly for 1, 2, and 3 days; (2) 10 mg/kg/day methylprednisolone (MP10, pulse-dose) for 3 days; or (3) saline (placebo) for 3 days; and (4) a control group. Diaphragmatic in vitro force-frequency and force-velocity relationships, myosin heavy chain (MyHC) isoform protein and mRNA, insulin-like growth factor-1 (IGF-1), muscle atrophy F-box (MAF-box) mRNA, and volume density of abnormal myofibrils were measured at each time-point. MP80 did not affect animal nutritional state or fiber cross-sectional area as assessed in separate pair-fed groups receiving methylprednisolone or saline for 3 days. Compared with control values, MP80 decreased diaphragmatic maximum tetanic tension (Po) by 19%, 24%, and 34% after 1, 2, and 3 days (P < 0.05), respectively, whereas MP10 decreased Po modestly (12%; P > 0.05). Vmax and MyHC protein proportions were unchanged in both the MP80 and MP10 groups. Maximum power output decreased after 2 and 3 days of MP80. Suppression of IGF-1 and overexpression of MAF-box mRNA occurred in both MP groups. Significant myofibrillar disarray was also observed in both MP groups. The decline in Po was significantly associated with the increased volume density of abnormal myofibrils. Thus, very high-dose methylprednisolone (MP80) can produce rapid reductions in diaphragmatic function, whereas pulse-dose methylprednisolone (MP10) produces only modest functional loss.

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Renee Nelson

Early effects of mechanical ventilation on isotonic contractile properties and MAF-box gene expression in the diaphragm

Kindling alters neurosteroid‐induced modulation of phasic and tonic GABA_A receptor‐mediated currents: role of phosphorylation

Acute effects of high‐dose methylprednisolone on diaphragm muscle function

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Renee Nelson

Early effects of mechanical ventilation on isotonic contractile properties and MAF-box gene expression in the diaphragm

Kindling alters neurosteroid‐induced modulation of phasic and tonic GABAA receptor‐mediated currents: role of phosphorylation

Acute effects of high‐dose methylprednisolone on diaphragm muscle function

Contact Info

Product

Resources

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Kindling alters neurosteroid‐induced modulation of phasic and tonic GABA_A receptor‐mediated currents: role of phosphorylation