Fredric A Gorin scite author profile

Malignant gliomas exhibit alkaline intracellular pH (pH(i)) and acidic extracellular pH (pH(e)) compared with nontransformed astrocytes, despite increased metabolic H(+) production. The acidic pH(e) limits the availability of HCO(-)(3), thereby reducing both passive and dynamic HCO(-)(3)-dependent buffering. This implies that gliomas are dependent upon dynamic HCO(-)(3)-independent H(+) buffering pathways such as the type 1 Na(+)/H(+) exchanger (NHE1). In this study, four rapidly proliferating gliomas exhibited significantly more alkaline steady-state pH(i) (pH(i) = 7.31-7.48) than normal astrocytes (pH(i) = 6.98), and increased rates of recovery from acidification, under nominally CO(2)/HCO(-)(3)-free conditions. Inhibition of NHE1 in the absence of CO(2)/HCO(-)(3) resulted in pronounced acidification of gliomas, whereas normal astrocytes were unaffected. When suspended in CO(2)/HCO(-)(3) medium astrocyte pH(i) increased, yet glioma pH(i) unexpectedly acidified, suggesting the presence of an HCO(-)(3)-dependent acid loading pathway. Nucleotide sequencing of NHE1 cDNA from the gliomas demonstrated that genetic alterations were not responsible for this altered NHE1 function. The data suggest that NHE1 activity is significantly elevated in gliomas and may provide a useful target for the development of tumor-selective therapies.

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Stretch-activated ion channels contribute to membrane depolarization after eccentric contractions

McBride

Stockert²,

Gorin

et al. 2000

Journal of Applied Physiology

101

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We tested the hypothesis that eccentric contractions activate mechanosensitive or stretch-activated ion channels (SAC) in skeletal muscles, producing increased cation conductance. Resting membrane potentials and contractile function were measured in rat tibialis anterior muscles after single or multiple exposures to a series of eccentric contractions. Each exposure produced a significant and prolonged (>24 h) membrane depolarization in exercised muscle fibers. The magnitude and duration of the depolarization were related to the number of contractions. Membrane depolarization was due primarily to an increase in Na(+) influx, because the estimated Na(+)-to-K(+) permeability ratio was increased in exercised muscles and resting membrane potentials could be partially repolarized by substituting an impermeant cation for extracellular Na(+) concentration. Neither the Na(+)/H(+) antiport inhibitor amiloride nor the fast Na(+) channel blocker TTX had a significant effect on the depolarization. In contrast, addition of either of two nonselective SAC inhibitors, streptomycin or Gd(3+), produced significant membrane repolarization. The results suggest that muscle fibers experience prolonged depolarization after eccentric contractions due, principally, to the activation of Na(+)-selective SAC.

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Mechanical strain injury increases intracellular sodium and reverses Na⁺/Ca²⁺ exchange in cortical astrocytes

Floyd

Gorin

Lyeth

2005

Glia

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Traditionally, astrocytes have been considered less susceptible to injury than neurons. Yet, we have recently shown that astrocyte death precedes neuronal death in a rat model of traumatic brain injury (TBI) (Zhao et al.: Glia 44:140-152, 2003). A main mechanism hypothesized to contribute to cellular injury and death after TBI is elevated intracellular calcium ([Ca 2+ ] i ). Since calcium regulation is also influenced by regulation of intracellular sodium ([Na + ] i ), we used an in vitro model of strain-induced traumatic injury and live-cell fluorescent digital imaging to investigate alterations in [Na + ] i in cortical astrocytes after injury. Changes in [Na + ] i , or [Ca 2+ ] i were monitored after mechanical injury or L-glutamate exposure by ratiometric imaging of sodiumbinding benzofuran isophthalate (SBFI-AM), or Fura-2-AM, respectively. Mechanical strain injury or exogenous glutamate application produced increases in [Na + ] i that were dependent on the severity of injury or concentration. Injury-induced increases in [Na + ] i were significantly reduced, but not completely eliminated, by inhibition of glutamate uptake by DL-threo-β-benzyloxyaspartate (TBOA). Blockade of sodium-dependent calcium influx through the sodiumcalcium exchanger with 2-[2-[4-(4-Nitrobenzyloxy)-phenyl]ethyl]isothiourea mesylate (KB-R7943) reduced [Ca 2+ ] i after injury. KB-R7943 also reduced astrocyte death after injury. These findings suggest that in astrocytes subjected to mechanical injury or glutamate excitotoxicity, increases in intracellular Na + may be a critical component in the injury cascade and a therapeutic target for reduction of lasting deficits after traumatic brain injury.

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High-Resolution Chromosome Sorting and DNA Spot-Blot Analysis Assign McArdle's Syndrome to Chromosome 11

Lebo

Gorin²,

Fletterick³

et al. 1984

Science

222

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A rapid gene-mapping system uses a high-resolution, dual-laser sorter to identify genes from separate human chromosomes prepared with a new stain combination. This system was used to sort 21 unique chromosome types onto nitrocellulose filter papers. Several labeled gene probes hybridized to the sorted chromosomal DNA types predicted by their previous chromosome assignments. The skeletal muscle glycogen phosphorylase gene was then mapped to a portion of chromosome 11 by spot blotting normal and translocated chromosomes.

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Prolonged recovery and reduced adaptation in aged rat muscle following eccentric exercise

McBride

Gorin

Carlsen

1995

Mechanisms of Ageing and Development

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Fredric A Gorin

Malignant gliomas display altered pH regulation by NHE1 compared with nontransformed astrocytes

Stretch-activated ion channels contribute to membrane depolarization after eccentric contractions

Mechanical strain injury increases intracellular sodium and reverses Na⁺/Ca²⁺ exchange in cortical astrocytes

High-Resolution Chromosome Sorting and DNA Spot-Blot Analysis Assign McArdle's Syndrome to Chromosome 11

Prolonged recovery and reduced adaptation in aged rat muscle following eccentric exercise

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Fredric A Gorin

Malignant gliomas display altered pH regulation by NHE1 compared with nontransformed astrocytes

Stretch-activated ion channels contribute to membrane depolarization after eccentric contractions

Mechanical strain injury increases intracellular sodium and reverses Na+/Ca2+ exchange in cortical astrocytes

High-Resolution Chromosome Sorting and DNA Spot-Blot Analysis Assign McArdle's Syndrome to Chromosome 11

Prolonged recovery and reduced adaptation in aged rat muscle following eccentric exercise

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Product

Resources

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Mechanical strain injury increases intracellular sodium and reverses Na⁺/Ca²⁺ exchange in cortical astrocytes