You might find this additional info useful... This article cites 65 articles, 33 of which you can... more You might find this additional info useful... This article cites 65 articles, 33 of which you can access for free at:
Loewen, Matthew E., Lane K. Bekar, Wolfgang Walz, George W. Forsyth, and Sherif E. Gabriel. pCLCA... more Loewen, Matthew E., Lane K. Bekar, Wolfgang Walz, George W. Forsyth, and Sherif E. Gabriel. pCLCA1 lacks inherent chloride channel activity in an epithelial colon carcinoma cell line. Am J Physiol Gastrointest Liver Physiol 287: G33–G41, 2004. First published February 26, 2004; 10.1152/ajpgi.00023.2004.—The effects of CLCA protein expression on the regulation of Cl conductance by intracellular Ca and cAMP have been studied previously in nonepithelial cell lines chosen for low backgrounds of endogenous Cl conductance. However, CLCA proteins have been cloned from, and normally function in, differentiated epithelial cells. In this study, we examine the effects of differentiation of the Caco-2 epithelial colon carcinoma cell line on modulation of Cl conductance by pCLCA1 protein expression. Cl transport was measured as Cl efflux, as transepithelial short-circuit currents, and as whole cell patch-clamp current-voltage relations. The rate of Cl efflux and amplitude of currents in patch-cl...
ABSTRACTCumulative data point to a key role of Ca2+-dependent gliotransmitter release as a modula... more ABSTRACTCumulative data point to a key role of Ca2+-dependent gliotransmitter release as a modulator of neuronal networks. Here, we tested the hypothesis that astrocytes in response to agonist exposure also release lipid modulators through Ca2+-independent phospholipase A2 (iPLA2) activity. We found that cultured rat astrocytes in response to agonist exposure, released Arachidonic Acid (AA) and/or its derivatives, including the endogenous cannabinoid, 2-arachidonoyl-sn-glycerol (2AG) and the prostaglandin E2 (PGE2). Surprisingly, buffering of cytosolic Ca2+ was linked to a sharp increase in astrocytic lipid release. In addition, astrocytic release of PGE2 enhanced mEPSPs by inhibiting the opening of neuronal Kv channels in acute brain slices. This study provides the first evidence for the existence of a Ca2+-independent pathway for the release of PGE2 from astrocytes and furthermore demonstrates a functional role for astrocytic lipid release in the modulation of synaptic activity.
Changes in extracellular potassium ([K+]e) modulate neuronal networks via changes in membrane pot... more Changes in extracellular potassium ([K+]e) modulate neuronal networks via changes in membrane potential, voltage-gated channel activity and alteration of transmission at the synapse. Given the limited extracellular space in the CNS, potassium clearance is crucial. As activity-induced potassium transients are rapidly managed by astrocytic Kir4.1 and astrocyte-specific Na+/K+-ATPase (NKA), any neurotransmitter/neuromodulator that can regulate their function may have indirect influence on network activity. Neuromodulators differentially affect cortical/thalamic networks to align sensory processing with differing behavioral states. Given serotonin (5HT), norepinephrine (NE), and acetylcholine (ACh) differentially affect spike frequency adaptation and signal fidelity (“signal-to-noise”) in somatosensory cortex, we hypothesize that [K+]e may be differentially regulated by the different neuromodulators to exert their individual effects on network function. This study aimed to compare effec...
It is known that diabetic and chronic inflammatory conditions can increase the risk of Alzheimer’... more It is known that diabetic and chronic inflammatory conditions can increase the risk of Alzheimer’s disease (AD)-like neurodegeneration in isolation. As certain elements of the diabetic/pre-diabetic state may sensitize the brain to inflammatory insult (i.e. excess glucocorticoid activity), there is reason to believe that obesogenic and inflammatory factors may accelerate neurodegeneration in a synergistic manner. Also, given that most AD research utilizes male animal models despite increased prevalence of AD among women, we sought to characterize elements of the established (in males) high-sucrose model of neurodegeneration, for the first time, in reproductively normal (pre-menopausal) female mice. A high-sucrose diet (20% of the drinking water) was combined with systemic intraperitoneal lipopolysaccharide (LPS) injections (0.1 mg/kg; 1x/month over 3 months) over seven months in reproductively normal female wild-type mice (C57Bl/6; n=10/group). Although a deleterious effect was hypot...
North American incidence of Alzheimer’s disease (AD) is expected to more than double over the com... more North American incidence of Alzheimer’s disease (AD) is expected to more than double over the coming generation. Although genetic factors surrounding the production and clearance of amyloid-β and phosphorylated tau proteins are known to be responsible for a subset of early-onset AD cases, they do not explain the pathogenesis of the far more prevalent sporadic late-onset variant of the disease. It is thus likely that lifestyle and environmental factors contribute to neurodegenerative processes implicated in the pathogenesis of AD. Herein, we review evidence that (1) excess sucrose consumption induces AD-associated liver pathologies and brain insulin resistance, (2) chronic stress overdrives activity of locus coeruleus neurons, leading to loss of function (a common event in neurodegeneration), (3) high-sugar diets and stress promote the loss of neuroprotective sex hormones in men and women, and (4) Western dietary trends set the stage for a lithium-deficient state. We propose that the...
Cultured rat hippocampal astrocytes were used to investigate the mechanism underlying the suppres... more Cultured rat hippocampal astrocytes were used to investigate the mechanism underlying the suppression of Ba2+-sensitive K+ currents by GABAA receptor activation. Muscimol application had two effects on whole cell currents: opening of the well-known Cl- channel of the GABAA receptor and a secondary longer-lasting blockade of outward K+ currents displaying both peak and plateau phases. This blockade was independent of both Na+ (inside and outside) and ATP in the pipette. It also seemed to be independent of muscimol binding to the receptor because picrotoxin application showed no effect on the K+ conductance. The effect is blocked when anion efflux is prevented by replacing Cl- with gluconate (both inside and out) and is enhanced with more permeant anions such as Br- and I-. Moreover, the effect is reproduced in the absence of muscimol by promoting Cl- efflux via lowering of extracellular Cl- levels. These results, along with the requirement for Cl- efflux in muscimol experiments, show...
Matrix metalloproteinases (MMPs) significantly contribute to ischemia reperfusion (I/R) injury, n... more Matrix metalloproteinases (MMPs) significantly contribute to ischemia reperfusion (I/R) injury, namely, by the degradation of contractile proteins. However, due to the experimental models adopted and lack of isoform specificity of MMP inhibitors, the cellular source and identity of the MMP(s) involved in I/R injury remain to be elucidated. Using isolated adult rat cardiomyocytes, subjected to chemically induced I/R-like injury, we show that specific inhibition of MMP-2 expression and activity using MMP-2 siRNA significantly protected cardiomyocyte contractility from I/R-like injury. This was also associated with increased expression of myosin light chains 1 and 2 (MLC1/2) in comparison to scramble siRNA transfection. Moreover, the positive effect of MMP-2 siRNA transfection on cardiomyocyte contractility and MLC1/2 expression levels was also observed under control conditions, suggesting an important additional role for MMP-2 in physiological sarcomeric protein turnover. This study c...
Voltage-gated potassium channels are well established as critical for setting action potential fr... more Voltage-gated potassium channels are well established as critical for setting action potential frequency, membrane potential, and neurotransmitter release in neurons. However, their role in the “nonexcitable” glial cell type is yet to be fully understood. We used whole cell current kinetics, pharmacology, immunocytochemistry, and RT-PCR to characterize A-type current in hippocampal astrocyte cultures to better understand its function. Pharmacological analysis suggests that ∼70, 10, and <5% of total A current is associated with Kv4, Kv3, and Kv1 channels, respectively. In addition, pharmacology and kinetics provide evidence for a significant contribution of KChIP accessory proteins to astrocytic A-channel composition. Localization of the Shaw Kv3.4 channel to astrocytic processes and the Shal Kv4.3 channel to soma suggest that these channels serve a specific function. Given this complex A-type channel expression pattern, we assessed the role of A currents in membrane voltage oscil...
Given the brain's uniquely high cell density and tissue oxygen levels bordering on hypoxia, t... more Given the brain's uniquely high cell density and tissue oxygen levels bordering on hypoxia, the ability to rapidly and precisely match blood flow to constantly changing patterns in neural activity is an essential feature of cerebrovascular regulation. Locus coeruleus-norepinephrine (LC-NE) projections innervate the cerebral vasculature and can mediate vasoconstriction. However, function of the LC-mediated constriction in blood-flow regulation has never been addressed. Here, using intrinsic optical imaging coupled with an anesthesia regimen that only minimally interferes with LC activity, we show that NE enhances spatial and temporal aspects of functional hyperemia in the mouse somatosensory cortex. Increasing NE levels in the cortex using an α2-adrenergic receptor antagonist paradoxically reduces the extent of functional hyperemia while enhancing the surround blood-flow reduction. However, the NE-mediated vasoconstriction optimizes spatial and temporal focusing of the hyperemic ...
Chloride concentration has been shown to have a dramatic impact on protein folding and subsequent... more Chloride concentration has been shown to have a dramatic impact on protein folding and subsequent tertiary conformation [K.D. Collins, Ions from the Hofmeister series and osmolytes: effects on proteins in solution and in the crystallization process, Methods 34 (2004) 300-311; I. Jelesarov, E. Durr, R.M. Thomas, H.R. Bosshard, Salt effects on hydrophobic interaction and charge screening in the folding of a negatively charged peptide to a coiled coil (leucine zipper), Biochemistry 37 (1998) 7539-7550]. As it is known that Kv channel gating is linked to the stability of the cytoplasmic T1 multimerization domain conformation [D.L. Minor, Y.F. Lin, B.C. Mobley, A. Avelar, Y.N. Jan, L.Y. Jan, J.M. Berger, The polar T1 interface is linked to conformational changes that open the voltage-gated potassium channel, Cell 102 (2000) 657-670; B.A. Yi, D.L. Minor Jr., Y.F. Lin, Y.N. Jan, L.Y. Jan, Controlling potassium channel activities: interplay between the membrane and intracellular factors, Proc. Natl. Acad. Sci. U.S.A. 98 (2001) 11016-11023] and that intracellular chloride concentration has been linked to Kv channel kinetics [L.K. Bekar, W. Walz, Intracellular chloride modulates A-type potassium currents in astrocytes, Glia 39 (2002) 207-216; W.B. Thoreson, S.L. Stella, Anion modulation of calcium current voltage dependence and amplitude in salamander rods, Biochim. Biophys. Acta 1464 (2000) 142-150], the objective of the present study was to address how chloride concentration changes affect Kv channel kinetics more closely in an isolated expression system. Initially, no significant chloride concentration-dependent effects on channel steady-state gating kinetics were observed. Only after disruption of the cytoskeleton with cytochalasin-D did we see significant chloride concentration-dependent shifts in gating kinetics. This suggests that the shift in gating kinetics is mediated through effects of intracellular chloride concentration on cytoplasmic domain tertiary conformation as cytoskeletal interaction appears to mask the effect. Furthermore, as cytoskeletal disruption only impacts channel gating kinetics at low physiological intracellular chloride concentrations, these studies highlight the importance of paying close attention to anion concentrations used under experimental conditions.
Vimentin-expressing astrocytes in the adult are commonly associated with the proximal, most react... more Vimentin-expressing astrocytes in the adult are commonly associated with the proximal, most reactive gliotic response ultimately leading to the formation of a new glial limitans. It was thought, since vimentin expression and astroglial proliferation are most prominent nearest the lesion site, that vimentin may be a characteristic of immature newly divided astrocytes. We recently established a unique distribution of vimentin-expressing reactive astrocytes at the base of a focal cortical ischemic lesion in rats. The purpose of the present study was to assess the correlation of proliferation and migration with this unique distribution following focal injury. With the use of bromodeoxyuridine (BrdU) and immunohistochemistry for astrocytes and microglia/macrophages, proliferation and migration of cells was shown to be throughout the ipsilateral hemisphere on day one and become progressively more centralized to the lesion by day 3. The vimentin-expressing area at the base of the lesion does not exhibit distinguishable proliferation rates from non-vimentin-expressing regions surrounding the lesion and did not demonstrate obvious double labeling with BrdU+ cells, although on occasion vimentin expression is closely associated with BrdU. However, this region did become a focal point for migration into and around the lesion by day 3. Additionally, asymmetrical distribution of vimentin was shown in four different injury models with vimentin+ cells always situated between the lesion and the corpus callosum. It is concluded that although vimentin-expressing cells did not correlate with proliferating cells in these focal injury models, perhaps this distinct population of reactive astrocytes serve as a source of cytokines or as a physical conduit for migrating cells from distant sites through the corpus callosum.
You might find this additional info useful... This article cites 65 articles, 33 of which you can... more You might find this additional info useful... This article cites 65 articles, 33 of which you can access for free at:
Loewen, Matthew E., Lane K. Bekar, Wolfgang Walz, George W. Forsyth, and Sherif E. Gabriel. pCLCA... more Loewen, Matthew E., Lane K. Bekar, Wolfgang Walz, George W. Forsyth, and Sherif E. Gabriel. pCLCA1 lacks inherent chloride channel activity in an epithelial colon carcinoma cell line. Am J Physiol Gastrointest Liver Physiol 287: G33–G41, 2004. First published February 26, 2004; 10.1152/ajpgi.00023.2004.—The effects of CLCA protein expression on the regulation of Cl conductance by intracellular Ca and cAMP have been studied previously in nonepithelial cell lines chosen for low backgrounds of endogenous Cl conductance. However, CLCA proteins have been cloned from, and normally function in, differentiated epithelial cells. In this study, we examine the effects of differentiation of the Caco-2 epithelial colon carcinoma cell line on modulation of Cl conductance by pCLCA1 protein expression. Cl transport was measured as Cl efflux, as transepithelial short-circuit currents, and as whole cell patch-clamp current-voltage relations. The rate of Cl efflux and amplitude of currents in patch-cl...
ABSTRACTCumulative data point to a key role of Ca2+-dependent gliotransmitter release as a modula... more ABSTRACTCumulative data point to a key role of Ca2+-dependent gliotransmitter release as a modulator of neuronal networks. Here, we tested the hypothesis that astrocytes in response to agonist exposure also release lipid modulators through Ca2+-independent phospholipase A2 (iPLA2) activity. We found that cultured rat astrocytes in response to agonist exposure, released Arachidonic Acid (AA) and/or its derivatives, including the endogenous cannabinoid, 2-arachidonoyl-sn-glycerol (2AG) and the prostaglandin E2 (PGE2). Surprisingly, buffering of cytosolic Ca2+ was linked to a sharp increase in astrocytic lipid release. In addition, astrocytic release of PGE2 enhanced mEPSPs by inhibiting the opening of neuronal Kv channels in acute brain slices. This study provides the first evidence for the existence of a Ca2+-independent pathway for the release of PGE2 from astrocytes and furthermore demonstrates a functional role for astrocytic lipid release in the modulation of synaptic activity.
Changes in extracellular potassium ([K+]e) modulate neuronal networks via changes in membrane pot... more Changes in extracellular potassium ([K+]e) modulate neuronal networks via changes in membrane potential, voltage-gated channel activity and alteration of transmission at the synapse. Given the limited extracellular space in the CNS, potassium clearance is crucial. As activity-induced potassium transients are rapidly managed by astrocytic Kir4.1 and astrocyte-specific Na+/K+-ATPase (NKA), any neurotransmitter/neuromodulator that can regulate their function may have indirect influence on network activity. Neuromodulators differentially affect cortical/thalamic networks to align sensory processing with differing behavioral states. Given serotonin (5HT), norepinephrine (NE), and acetylcholine (ACh) differentially affect spike frequency adaptation and signal fidelity (“signal-to-noise”) in somatosensory cortex, we hypothesize that [K+]e may be differentially regulated by the different neuromodulators to exert their individual effects on network function. This study aimed to compare effec...
It is known that diabetic and chronic inflammatory conditions can increase the risk of Alzheimer’... more It is known that diabetic and chronic inflammatory conditions can increase the risk of Alzheimer’s disease (AD)-like neurodegeneration in isolation. As certain elements of the diabetic/pre-diabetic state may sensitize the brain to inflammatory insult (i.e. excess glucocorticoid activity), there is reason to believe that obesogenic and inflammatory factors may accelerate neurodegeneration in a synergistic manner. Also, given that most AD research utilizes male animal models despite increased prevalence of AD among women, we sought to characterize elements of the established (in males) high-sucrose model of neurodegeneration, for the first time, in reproductively normal (pre-menopausal) female mice. A high-sucrose diet (20% of the drinking water) was combined with systemic intraperitoneal lipopolysaccharide (LPS) injections (0.1 mg/kg; 1x/month over 3 months) over seven months in reproductively normal female wild-type mice (C57Bl/6; n=10/group). Although a deleterious effect was hypot...
North American incidence of Alzheimer’s disease (AD) is expected to more than double over the com... more North American incidence of Alzheimer’s disease (AD) is expected to more than double over the coming generation. Although genetic factors surrounding the production and clearance of amyloid-β and phosphorylated tau proteins are known to be responsible for a subset of early-onset AD cases, they do not explain the pathogenesis of the far more prevalent sporadic late-onset variant of the disease. It is thus likely that lifestyle and environmental factors contribute to neurodegenerative processes implicated in the pathogenesis of AD. Herein, we review evidence that (1) excess sucrose consumption induces AD-associated liver pathologies and brain insulin resistance, (2) chronic stress overdrives activity of locus coeruleus neurons, leading to loss of function (a common event in neurodegeneration), (3) high-sugar diets and stress promote the loss of neuroprotective sex hormones in men and women, and (4) Western dietary trends set the stage for a lithium-deficient state. We propose that the...
Cultured rat hippocampal astrocytes were used to investigate the mechanism underlying the suppres... more Cultured rat hippocampal astrocytes were used to investigate the mechanism underlying the suppression of Ba2+-sensitive K+ currents by GABAA receptor activation. Muscimol application had two effects on whole cell currents: opening of the well-known Cl- channel of the GABAA receptor and a secondary longer-lasting blockade of outward K+ currents displaying both peak and plateau phases. This blockade was independent of both Na+ (inside and outside) and ATP in the pipette. It also seemed to be independent of muscimol binding to the receptor because picrotoxin application showed no effect on the K+ conductance. The effect is blocked when anion efflux is prevented by replacing Cl- with gluconate (both inside and out) and is enhanced with more permeant anions such as Br- and I-. Moreover, the effect is reproduced in the absence of muscimol by promoting Cl- efflux via lowering of extracellular Cl- levels. These results, along with the requirement for Cl- efflux in muscimol experiments, show...
Matrix metalloproteinases (MMPs) significantly contribute to ischemia reperfusion (I/R) injury, n... more Matrix metalloproteinases (MMPs) significantly contribute to ischemia reperfusion (I/R) injury, namely, by the degradation of contractile proteins. However, due to the experimental models adopted and lack of isoform specificity of MMP inhibitors, the cellular source and identity of the MMP(s) involved in I/R injury remain to be elucidated. Using isolated adult rat cardiomyocytes, subjected to chemically induced I/R-like injury, we show that specific inhibition of MMP-2 expression and activity using MMP-2 siRNA significantly protected cardiomyocyte contractility from I/R-like injury. This was also associated with increased expression of myosin light chains 1 and 2 (MLC1/2) in comparison to scramble siRNA transfection. Moreover, the positive effect of MMP-2 siRNA transfection on cardiomyocyte contractility and MLC1/2 expression levels was also observed under control conditions, suggesting an important additional role for MMP-2 in physiological sarcomeric protein turnover. This study c...
Voltage-gated potassium channels are well established as critical for setting action potential fr... more Voltage-gated potassium channels are well established as critical for setting action potential frequency, membrane potential, and neurotransmitter release in neurons. However, their role in the “nonexcitable” glial cell type is yet to be fully understood. We used whole cell current kinetics, pharmacology, immunocytochemistry, and RT-PCR to characterize A-type current in hippocampal astrocyte cultures to better understand its function. Pharmacological analysis suggests that ∼70, 10, and <5% of total A current is associated with Kv4, Kv3, and Kv1 channels, respectively. In addition, pharmacology and kinetics provide evidence for a significant contribution of KChIP accessory proteins to astrocytic A-channel composition. Localization of the Shaw Kv3.4 channel to astrocytic processes and the Shal Kv4.3 channel to soma suggest that these channels serve a specific function. Given this complex A-type channel expression pattern, we assessed the role of A currents in membrane voltage oscil...
Given the brain's uniquely high cell density and tissue oxygen levels bordering on hypoxia, t... more Given the brain's uniquely high cell density and tissue oxygen levels bordering on hypoxia, the ability to rapidly and precisely match blood flow to constantly changing patterns in neural activity is an essential feature of cerebrovascular regulation. Locus coeruleus-norepinephrine (LC-NE) projections innervate the cerebral vasculature and can mediate vasoconstriction. However, function of the LC-mediated constriction in blood-flow regulation has never been addressed. Here, using intrinsic optical imaging coupled with an anesthesia regimen that only minimally interferes with LC activity, we show that NE enhances spatial and temporal aspects of functional hyperemia in the mouse somatosensory cortex. Increasing NE levels in the cortex using an α2-adrenergic receptor antagonist paradoxically reduces the extent of functional hyperemia while enhancing the surround blood-flow reduction. However, the NE-mediated vasoconstriction optimizes spatial and temporal focusing of the hyperemic ...
Chloride concentration has been shown to have a dramatic impact on protein folding and subsequent... more Chloride concentration has been shown to have a dramatic impact on protein folding and subsequent tertiary conformation [K.D. Collins, Ions from the Hofmeister series and osmolytes: effects on proteins in solution and in the crystallization process, Methods 34 (2004) 300-311; I. Jelesarov, E. Durr, R.M. Thomas, H.R. Bosshard, Salt effects on hydrophobic interaction and charge screening in the folding of a negatively charged peptide to a coiled coil (leucine zipper), Biochemistry 37 (1998) 7539-7550]. As it is known that Kv channel gating is linked to the stability of the cytoplasmic T1 multimerization domain conformation [D.L. Minor, Y.F. Lin, B.C. Mobley, A. Avelar, Y.N. Jan, L.Y. Jan, J.M. Berger, The polar T1 interface is linked to conformational changes that open the voltage-gated potassium channel, Cell 102 (2000) 657-670; B.A. Yi, D.L. Minor Jr., Y.F. Lin, Y.N. Jan, L.Y. Jan, Controlling potassium channel activities: interplay between the membrane and intracellular factors, Proc. Natl. Acad. Sci. U.S.A. 98 (2001) 11016-11023] and that intracellular chloride concentration has been linked to Kv channel kinetics [L.K. Bekar, W. Walz, Intracellular chloride modulates A-type potassium currents in astrocytes, Glia 39 (2002) 207-216; W.B. Thoreson, S.L. Stella, Anion modulation of calcium current voltage dependence and amplitude in salamander rods, Biochim. Biophys. Acta 1464 (2000) 142-150], the objective of the present study was to address how chloride concentration changes affect Kv channel kinetics more closely in an isolated expression system. Initially, no significant chloride concentration-dependent effects on channel steady-state gating kinetics were observed. Only after disruption of the cytoskeleton with cytochalasin-D did we see significant chloride concentration-dependent shifts in gating kinetics. This suggests that the shift in gating kinetics is mediated through effects of intracellular chloride concentration on cytoplasmic domain tertiary conformation as cytoskeletal interaction appears to mask the effect. Furthermore, as cytoskeletal disruption only impacts channel gating kinetics at low physiological intracellular chloride concentrations, these studies highlight the importance of paying close attention to anion concentrations used under experimental conditions.
Vimentin-expressing astrocytes in the adult are commonly associated with the proximal, most react... more Vimentin-expressing astrocytes in the adult are commonly associated with the proximal, most reactive gliotic response ultimately leading to the formation of a new glial limitans. It was thought, since vimentin expression and astroglial proliferation are most prominent nearest the lesion site, that vimentin may be a characteristic of immature newly divided astrocytes. We recently established a unique distribution of vimentin-expressing reactive astrocytes at the base of a focal cortical ischemic lesion in rats. The purpose of the present study was to assess the correlation of proliferation and migration with this unique distribution following focal injury. With the use of bromodeoxyuridine (BrdU) and immunohistochemistry for astrocytes and microglia/macrophages, proliferation and migration of cells was shown to be throughout the ipsilateral hemisphere on day one and become progressively more centralized to the lesion by day 3. The vimentin-expressing area at the base of the lesion does not exhibit distinguishable proliferation rates from non-vimentin-expressing regions surrounding the lesion and did not demonstrate obvious double labeling with BrdU+ cells, although on occasion vimentin expression is closely associated with BrdU. However, this region did become a focal point for migration into and around the lesion by day 3. Additionally, asymmetrical distribution of vimentin was shown in four different injury models with vimentin+ cells always situated between the lesion and the corpus callosum. It is concluded that although vimentin-expressing cells did not correlate with proliferating cells in these focal injury models, perhaps this distinct population of reactive astrocytes serve as a source of cytokines or as a physical conduit for migrating cells from distant sites through the corpus callosum.
Uploads