Jose A Rafols

Publications (12)26.55 Total impact

• Article: Polyadenylated mRNA staining reveals distinct neuronal phenotypes following endothelin 1, focal brain ischemia, and global brain ischemia/ reperfusion.

  Jill T Jamison, Monique K Lewis, Christian W Kreipke, José A Rafols, Donald J DeGracia
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  ABSTRACT: Most work on ischemia-induced neuronal death has revolved around the relative contributions of necrosis and apoptosis, but this work has not accounted for the role of ischemia-induced stress responses. An expanded view recognizes a competition between ischemia-induced damage mechanisms and stress responses in the genesis of ischemia-induced neuronal death. An important marker of post-ischemic stress responses is inhibition of neuronal protein synthesis, a morphological correlate of which is the compartmentalization of mRNA away from ribosomes in the form of cytoplasmic mRNA granules. Here we assessed the generality of this mRNA granule response following either 10 or 15 minutes global brain ischemia and 1 hour reperfusion, 4 hours focal cerebral ischemia alone, and endothelin 1 intraventricular injection. Both global and focal ischemia led to prominent neuronal cytoplasmic mRNA granule formation in layer II cortical neurons. In addition, we report here new post-ischemic cellular phenotypes characterized by the loss of nuclear polyadenylated mRNA staining in cortical neurons following endothelin 1 treatment and 15 minutes global ischemia. Both mRNA granulation and loss of nuclear mRNAs occurred in non-shrunken post-ischemic neurons. Where cytoplasmic mRNA granules generally appear to mark a protective response in surviving cells, loss of nuclear mRNAs may mark cellular damage leading to cell atrophy/death. Hence, staining for total mRNA may reveal facets of the competition between stress responses and damage mechanisms at early stages in post-ischemic neurons.
  Neurological Research 03/2011; 33(2):145-61. · 1.52 Impact Factor
• Article: Calponin control of cerebrovascular reactivity: therapeutic implications in brain trauma.

  Christian W Kreipke, Jose A Rafols
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  ABSTRACT: Calponin (Cp) is an actin-binding protein first characterized in chicken gizzard smooth muscle (SM). This review discusses the role of Cp in mediating SM contraction, the biochemical process by which Cp facilitates SM contraction and the function of Cp in the brain. Recent work on the role of Cp in pathological states with emphasis on traumatic brain injury is also discussed. Based on past and present data, the case is presented for targeting Cp for novel genetic and pharmacological therapies aimed at improving outcome following traumatic brain injury (TBI).
  Journal of Cellular and Molecular Medicine 03/2009; 13(2):262-9. · 4.13 Impact Factor
• Article: Receptor for advanced glycation end products and neuronal deficit in the fatal brain edema of diabetic ketoacidosis.

  William H Hoffman, Carol M Artlett, Weixian Zhang, Christian W Kreipke, Gregory G Passmore, Jose A Rafols, Anders A F Sima
  [show abstract] [hide abstract]
  ABSTRACT: Radiologic and neuropsychologic studies suggest that diabetes mellitus causes structural changes in the brain and adversely effects cognitive development. Experimental animal models of type 1 diabetes mellitus (T1DM) have advanced these findings by demonstrating duration-related neuronal and cognitive deficits in T1DM BB/Wor rats. We studied the expression of receptor for advanced glycation end products (RAGE) and neuronal densities in the brains of two patients who died as the result of clinical brain edema(BE)that developed during the treatment of severe diabetic ketoacidosis (DKA). RAGE was markedly and diffusely expressed in blood vessels, neurons, and the choroid plexus and co-localized with glial fibrillary acidic protein (GFAP) in astrocytes. Significant neuronal loss was seen in the hippocampus and frontal cortex. Astrocytosis was present and white matter was atrophied in both cases when compared to age-matched controls. Our data supports that a neuroinflammatory response occurs in the BE associated with DKA, and that even after a relatively short duration of poorly controlled T1DM, the pathogenesis of primary diabetic encephalopathy can be initiated.
  Brain research 09/2008; 1238:154-62. · 2.46 Impact Factor
• Article: Subcellular redistribution of calponin underlies sustained vascular contractility following traumatic brain injury.

  Christian W Kreipke, Randy L Morgan, Theodor Petrov, Jose A Rafols
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  ABSTRACT: The purpose of this study was to observe temporal changes in calponin (Cp), a contractile protein, in response to traumatic brain injury (TBI). Double immunocytochemistry in conjunction with morphometric methods was used to study Cp temporal migration in smooth muscle cells (SM) of reacting microvessels following TBI, as induced using a weight-drop, acceleration impact method. Quantification of migrated Cp in the SM wall after TBI was carried out on three-dimensional orthographic reconstructions of serial, digitally acquired images and optical densitometry. Color shifts in Cp intensity were measured in three arbitrary longitudinal compartments, luminal (lu), middle (m) and abluminal (ablu), of SM cytoplasm with respect to proximity to the vessel's lumen. By 24 and 48 hours after TBI, most Cp had migrated from the SM compartment closest to the lu to that farthest away or ablu. In addition, a qualitative increase in Cp was detected closest to the ablu compartment in those segments of the vessel severely constricted. Cp migration from cytoskeletal to contractile regions of SM supports its role both in the initiation of vessel contractility and its interaction with cytoskeletal structures subjacent to the cell membrane in SM's contracted state.
  Neurological Research 10/2007; 29(6):604-9. · 1.52 Impact Factor
• Article: Calponin and caldesmon cellular domains in reacting microvessels following traumatic brain injury.

  Christian W Kreipke, Noah C Morgan, Theodor Petrov, Jose A Rafols
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  ABSTRACT: Calponin (Cp) and caldesmon (Cd) are actin-binding proteins involved in the regulation of smooth muscle (SM) tone during blood vessel contraction. While in vitro studies have reported modifications of these proteins during vessel contractility, their role in vivo remains unclear. Traumatic brain injury (TBI) causes disruption of cerebral microvascular tone, leading to sustained contractility in reacting microvessels and cerebral hypoperfusion. This study aimed to determine the spatial and temporal expressions of Cp and Cd in rat cerebral cortical and hippocampal microvessels post-TBI. Reacting microvessels were analyzed in control, 4, 24, and 48 h post-injury. Single and double immunocytochemical techniques together with semiquantitative analyses revealed a Cp upregulation in SM at all time frames post-TBI; with the protein migrating from SM cytosol to the vicinity of the cell membrane. Similarly, Cd immunoreactivity significantly increased in both SM and endothelial cells (En). However, while Cp and Cd in SM remained elevated, their levels in En returned to normal at 48 h post-TBI. The results suggest that Cp and Cd levels increase while compartmentalizing to specific subcellular domains. These changes are temporally associated with modifications in the cytoskeleton and contractile apparatus of SM and En during blood vessel contractility. Furthermore, these changes may underlie the state of sustained contractility and hypoperfusion observed in reacting microvessels after TBI.
  Microvascular Research 06/2006; 71(3):197-204. · 2.83 Impact Factor
• Article: Assessment of stress granules in motor cortex following global brain ischemia and reperfusion

  Foaz Kayali, Heather L Montie, Jose A Rafols, Donald J DeGracia
  Journal of Cerebral Blood Flow &#38 Metabolism 07/2005; · 5.01 Impact Factor
• Article: Reduced brain edema and matrix metalloproteinase (MMP) expression by pre-reperfusion infusion into ischemic territory in rat.

  Yun-Hong Ding, Jie Li, Jose A Rafols, Yuchuan Ding
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  ABSTRACT: The aim in this study was to investigate whether our experimental model for stroke therapy, flushing the ischemic territory with saline prior to reperfusion, could ameliorate disruption of microvascular integrity by reducing matrix metalloproteinase (MMP) expression during reperfusion. Stroke in Sprague Dawley rats (n = 42) was induced by a 2-h right middle cerebral artery (MCA) occlusion using a novel intraluminal hollow filament. Prior to reperfusion, 24 of the ischemic rats received 6ml isotonic saline at 37 degrees C infused into the ischemic area through the filament. Brain edema was determined by comparing the percentage difference in brain volume between the right and left (contralateral to stroke site) hemispheres, while the expressions of MMP-2 and -9 mRNA were analyzed by real-time reverse transcriptase-polymerase chain reaction (real-time RT-PCR). A significant (p < 0.01) brain edema, determined by an increased brain volume of 19 +/- 4%, and overexpression of the mRNA encoding MMPs, determined by increased relative mRNA level ratio, were found in ischemic rats. The brain damage, in terms of brain edema (4 +/- 1%) and overexpression of MMPs, was significantly (p < 0.05) ameliorated as a result of saline flushing into the ischemic territory prior to reperfusion. This study has enhanced our understanding of the causal mechanisms by which the neuroprotective effect of ischemic area "flushing" can be achieved.
  Neuroscience Letters 11/2004; 372(1-2):35-9. · 2.11 Impact Factor
• Article: High fat feeding is associated with increased blood pressure, sympathetic nerve activity and hypothalamic mu opioid receptors.

  Maria J Barnes, Karen Lapanowski, Alexandria Conley, Jose A Rafols, K L-Catherine Jen, Joseph C Dunbar
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  ABSTRACT: Obesity and high fat diets are associated with an increased prevalence of diabetes, cardiovascular disease, and hypertension. However, the mechanism(s) linking obesity and high fat diet to these metabolic and cardiovascular disorders are not fully elucidated. Leptin stimulates the formation of pro-opiomelanocortin and its products. The stimulation of the central nervous system (CNS) opioids and their receptors is associated with an increase in cardiovascular dynamics. In this study we hypothesized that obesity changed the CNS opioids and their receptors that could play a role in altered cardiovascular and autonomic nervous regulation in obesity. Male Wistar rats were fed either a high fat (HF) or regular chow (control) diet. After 12 weeks, rats were anesthetized and instrumented to record mean arterial pressure (MAP) and renal sympathetic nerve activity (RSNA). A blood sample was collected and plasma glucose, insulin, leptin, beta-endorphins were measured. The brains were subsequently processed for immunohistochemistry and in situ hybridization. The HF rats were larger and had a greater percentage of body fat. Leptin and insulin levels were also higher in the HF animals. Basal MAP and RSNA were significantly higher in HF rats. Additionally, immunohistochemistry and in situ hybridization demonstrated that HF rats had increased hypothalamus mu opioid receptors compared to controls. These studies suggest that HF feeding is associated with increased body fat, plasma leptin, insulin, and hypothalamic mu opioid receptors. The increased mu opioid receptors may contribute to the higher MAP and RSNA observed in HF animals.
  Brain Research Bulletin 10/2003; 61(5):511-9. · 2.82 Impact Factor
• Article: Chronic nitric oxide deficiency is associated with altered leutinizing hormone and follicle-stimulating hormone release in ovariectomized rats.

  Maria J Barnes, Karen Lapanowski, Jose A Rafols, David M Lawson, Joseph C Dunbar
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  ABSTRACT: Nitric oxide (NO) synthase (NOS) has been found in the gonadotrophs and folliculo-stellate cells of the anterior pituitary. Previous observations from our laboratory suggest that NO may play a role in regulating gonadotropin secretion. Because estrogen secretion by the ovary can influence gonadotropin secretion, we investigated the hypothesis that chronic in vivo NO deficiency has a direct estrogen-independent effect on luteinizing hormone (LH) and follicle-stimulating hormone (FSH) secretion. Chronic NO deficiency was induced by adding an NOS inhibitor, N-nitro-L-arginine (L-NNA, 0.6 g/l) to the drinking water of ovariectomized (OVX) rats. The control OVX rats were untreated. After 6-8 weeks, the animals were sacrificed, and the pituitaries were removed and perfused continuously for 4 hr in the presence of pulsatile gonadotropin-releasing hormone (GnRH, 500 ng/pulse) every 30 min. S-Nitroso-L-acetyl penicillamine (SNAP, an NO donor, 0.1 mM) or L-nitro-arginine methyl ester (L-NAME, an NOS inhibitor, 0.1 mM) was added to the media and perfusate samples were collected at 10-min intervals. GnRH-stimulated LH and FSH levels were significantly lower in pituitaries from OVX/NO-deficient pituitaries compared with pituitaries from the OVX control group. The addition of SNAP significantly decreased LH and FSH secretion by pituitaries from OVX control animals, but significantly increased their secretion by pituitaries from the OVX/NO-deficient animals. L-NAME also suppressed LH and FSH secretion by pituitaries from the OVX control animals and stimulated their release by pituitaries from the NO-deficient/OVX animals. Immunohistochemistry of frontal sections through the hypothalamus demonstrated that OVX/NO deficiency is associated with increased GnRH in the median eminence. We conclude that NO has a chronic stimulatory effect on LH and FSH release and the subsequent altered secretory responsiveness to NO agonist or antagonist is the result of chronic NO suppression.
  Experimental Biology and Medicine 11/2002; 227(9):817-22. · 2.64 Impact Factor
• Article: A model of global forebrain ischemia/reperfusion in the awake rat.

  Miguel A Melgar, Hun Park, Jose A Rafols, Fernando G Diaz
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  ABSTRACT: Anesthesia is an essential element during the induction of ischemia/reperfusion and cerebral blood flow (CBF) measurement in most animal models. Cerebral neuroprotection and intrinsic effects on CBF afforded by anesthetics are confounding variables in those models. A new model of global forebrain ischemia/reperfusion (GFIR) in awake rats is presented and characterized. Rats underwent permanent occlusion of the basilar, and the paired pterygopalatine, external carotid, and occipital arteries. Inflatable balloon occluders were inserted around both common carotids, the nine-vessel occlusion (9VO) preparation. A subgroup of 9VO rats underwent placement of a laser Doppler flowmetry (LDF) probe for measurement of cortical CBF. Twenty-four hours later, while awake, 9VO rats were subjected to 10 min of ischemia by occluding both common carotid arteries. Blood gases, glucose and hematocrit were analyzed before and during ischemia, and for up to 90 min during reperfusion. Behavioral observations and continuous LDF CBF and mean arterial blood pressure determinations during ischemia and reperfusion were made. Rats were rendered comatose and decerebrate rigidity was observed during 9VO. Following balloon deflation, rats immediately regained the righting reflex and achieved complete recovery in the next 24 h. Moderate hyperglycemia was observed at 5 min of ischemia and up to 90 min reperfusion in 9VO rats. LDF CBF decreased to 5% of baseline and remained unchanged during ischemia. The 9VO is a reproducible recovery model of GFIR. Behavioral and LDF CBF correlates are consistent and survival studies are feasible.
  Neurological Research 02/2002; 24(1):97-106. · 1.52 Impact Factor
• Article: High fat feeding is associated with increased blood pressure, sympathetic nerve activity and hypothalamic mu opioid receptors

  Maria J. Barnes, Karen Lapanowski, Alexandria Conley, Jose A. Rafols, K.L.-Catherine Jen, Joseph C. Dunbar
  [show abstract] [hide abstract]
  ABSTRACT: Obesity and high fat diets are associated with an increased prevalence of diabetes, cardiovascular disease, and hypertension. However, the mechanism(s) linking obesity and high fat diet to these metabolic and cardiovascular disorders are not fully elucidated. Leptin stimulates the formation of pro-opiomelanocortin and its products. The stimulation of the central nervous system (CNS) opioids and their receptors is associated with an increase in cardiovascular dynamics. In this study we hypothesized that obesity changed the CNS opioids and their receptors that could play a role in altered cardiovascular and autonomic nervous regulation in obesity. Male Wistar rats were fed either a high fat (HF) or regular chow (control) diet. After 12 weeks, rats were anesthetized and instrumented to record mean arterial pressure (MAP) and renal sympathetic nerve activity (RSNA). A blood sample was collected and plasma glucose, insulin, leptin, beta-endorphins were measured. The brains were subsequently processed for immunohistochemistry and in situ hybridization. The HF rats were larger and had a greater percentage of body fat. Leptin and insulin levels were also higher in the HF animals. Basal MAP and RSNA were significantly higher in HF rats. Additionally, immunohistochemistry and in situ hybridization demonstrated that HF rats had increased hypothalamus mu opioid receptors compared to controls. These studies suggest that HF feeding is associated with increased body fat, plasma leptin, insulin, and hypothalamic mu opioid receptors. The increased mu opioid receptors may contribute to the higher MAP and RSNA observed in HF animals.
  Brain Research Bulletin.
• Article: Receptor for advanced glycation end products and neuronal deficit in the fatal brain edema of diabetic ketoacidosis

  William H. Hoffman, Carol M. Artlett, Weixian Zhang, Christian W. Kreipke, Gregory G. Passmore, Jose A. Rafols, Anders A.F. Sima
  [show abstract] [hide abstract]
  ABSTRACT: Radiologic and neuropsychologic studies suggest that diabetes mellitus causes structural changes in the brain and adversely effects cognitive development. Experimental animal models of type 1 diabetes mellitus (T1DM) have advanced these findings by demonstrating duration-related neuronal and cognitive deficits in T1DM BB/Wor rats. We studied the expression of receptor for advanced glycation end products (RAGE) and neuronal densities in the brains of two patients who died as the result of clinical brain edema(BE)that developed during the treatment of severe diabetic ketoacidosis (DKA). RAGE was markedly and diffusely expressed in blood vessels, neurons, and the choroid plexus and co-localized with glial fibrillary acidic protein (GFAP) in astrocytes. Significant neuronal loss was seen in the hippocampus and frontal cortex. Astrocytosis was present and white matter was atrophied in both cases when compared to age-matched controls. Our data supports that a neuroinflammatory response occurs in the BE associated with DKA, and that even after a relatively short duration of poorly controlled T1DM, the pathogenesis of primary diabetic encephalopathy can be initiated.
  Brain Research.