M S Simonson

Publications (73)344.75 Total impact

• Article: Phenotypic transitions and fibrosis in diabetic nephropathy.

  M S Simonson
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  ABSTRACT: The cause of renal fibrosis in diabetic nephropathy is widely believed to be phenotypic switching of fibroblasts to an activated state. However, emerging evidence suggests that diabetes also alters the phenotype of normal, non-fibroblast kidney cells, such as mesangial cells, tubular epithelial cells, and bone marrow-derived progenitors. Experiments have shown that cytokines, high glucose, and advanced glycation end products induce profibrotic changes in kidney cell phenotype by the processes of myofibroblast transdifferentiation and epithelial-mesenchymal transition. As a result, differentiated kidney cells become reprogrammed to secrete and accumulate extracellular matrix. This revised view implies that inhibiting phenotypic transitions in nonfibroblasts might limit fibrosis in diabetic nephropathy.
  Kidney International 06/2007; 71(9):846-54. · 6.61 Impact Factor
• Article: Pneumoperitoneum upregulates preproendothelin-1 messenger RNA.

  J A Ambrose, R P Onders, N T Stowe, M S Simonson, A V Robinson, S Wilhelm, J A Schulak
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  ABSTRACT: Laparoscopic pneumoperitoneum has been shown to decrease glomerular filtration rate (GFR) and urine volume (UV). Endothelin-1 (ET-1), a potent renal vasoconstrictor, has been implicated. The purpose of this study was to determine renal function, ET-1 gene expression, and peptide localization in kidneys subjected to CO2 pneumoperitoneum. Experiments were performed in three groups of anesthetized Sprague-Dawley rats in which GFR and UV were measured before, during, and after insufflation. In the first group (n = 8), pneumoperitoneum (10 mmHg) was established for 30 min. The second group (n = 4) underwent a sham operation without pneumoperitoneum. In the final group (n = 4), kidneys were obtained from normal control animals without any prior surgical instrumentation. PreproET-1 (ppET-1) mRNA levels were measured by reverse transcription-polymerase chain reaction (RT-PCR). The ET-1 peptide was localized within kidneys by immunohistochemistry (IHC). Pneumoperitoneum caused a significant (p < 0.05) 87% decrease in GFR and a 79% decrease in UV from baseline, with a return to baseline values after desufflation. RT-PCR showed a significant (p < 0.05) increase in expression of ppET-1 mRNA in the laparoscopic group; it was 3.52 +/- 0.33 densitometric units (DU), as compared to 0.35 +/- 0.06 DU and 0.57 +/- 0.12 DU in the control and sham groups, respectively. IHC showed enhanced expression of the ET-1 peptide in the vascular endothelium and proximal tubular cells of the laparoscopic group compared to the control and sham groups. Pneumoperitoneum induces ET-1 gene and peptide upregulation in the kidney. Expression of ET-1 is increased in the renal vasculature and proximal tubular cells. The elevation of ET-1 and its localization may account for some of the renal dysfunction observed during pneumoperitoneum. This suggests that antagonism of ET-1 may be beneficial in patients with renal impairment undergoing prolonged laparoscopic procedures or in protecting allograft function during and after living donor nephrectomy.
  Surgical Endoscopy 02/2001; 15(2):183-8. · 4.01 Impact Factor
• Article: Gene regulation during intermittent hypoxia: evidence for the involvement of reactive oxygen species.

  G Adhikary, D Kline, G Yuan, G K Kumar, M S Simonson, N S Cherniack, N R Prabhakar
  Advances in experimental medicine and biology 02/2001; 499:297-302. · 1.09 Impact Factor
• Article: Elevated endothelin-1 in tubular epithelium is associated with renal allograft rejection.

  C Chareandee, W H Herman, D E Hricik, M S Simonson
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  ABSTRACT: Vascular endothelin-1 (ET-1) levels are elevated in patients with renal allograft rejection, and the mitogenic and pressor actions of ET-1 might contribute to transplant vasculopathy, posttransplantation hypertension, and ischemia-reperfusion injury. In contrast, relatively little is known about tubular expression of ET-1 in acute or chronic rejection of renal allografts. We sought to determine whether tubular ET-1 levels were altered in patients with acute or chronic renal allograft rejection. Immunohistochemical analysis of tubular ET-1 was performed in renal biopsy specimens from 18 patients with acute rejection, 7 patients with chronic rejection, and 5 normal kidneys excised for localized neoplasm. The diagnosis of acute or chronic rejection in each patient was verified and graded using the Banff schema. Renal tubular epithelium from patients with allograft rejection had markedly elevated staining for ET-1 compared with normal kidneys. Tubular ET-1 levels were elevated in 18 of 18 patients with acute rejection and 5 of 7 patients with chronic rejection. Tubular ET-1 staining was graded from 0 to +3 as follows: normal kidneys, 1.2 +/- 0.2; acute rejection, 2.3 +/- 0.4 (P < 0.01); and chronic rejection, 2.2 +/- 0.5 (P < 0.01). ET-1 staining was prominent in both proximal and distal tubules, and we observed abundant ET-1 secretion from proximal tubular epithelium in culture. Moreover, ET-1 activated the c-fos immediate early gene promoter in proximal tubular cells transfected with a c-fos luciferase reporter. We conclude that elevated tubular ET-1 levels are associated with acute and chronic rejection of renal allografts. Our results also suggest distinct pathophysiological roles for the tubular and vascular ET-1 systems in renal allograft rejection.
  American Journal of Kidney Diseases 10/2000; 36(3):541-9. · 5.43 Impact Factor
• Article: L-type Ca(2+) channel activation regulates induction of c-fos transcription by hypoxia.

  D R Premkumar, R R Mishra, J L Overholt, M S Simonson, N S Cherniack, N R Prabhakar
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  ABSTRACT: In the present study we examined the intracellular pathways that link hypoxia to activation of c-fos gene expression. Experiments were performed on rat pheocromocytoma-12 (PC-12) cells. c-fos mRNA and promoter activities were analyzed by RT-PCR and reporter gene assays, respectively. BAPTA, a Ca(2+) chelator, inhibited c-fos mRNA and promoter activation by hypoxia. Nitrendipine, an L-type Ca(2+)-channel blocker, abolished, whereas BAY K 8644, an L-type channel agonist, enhanced c-fos activation by hypoxia. Ca(2+) currents were augmented reversibly by hypoxia, suggesting that Ca(2+) influx mediated by L-type Ca(2+) channels is essential for c-fos activation by hypoxia. We next determined downstream pathways activated by intracellular Ca(2+) concentration. Immunoblot analysis revealed Ca(2+)/calmodulin-dependent kinase II (CaMKII) protein in PC-12 cells and revealed that hypoxia increased the enzyme activity. KN-93, a CaMK inhibitor, blocked CaMKII activation and c-fos promoter stimulation by hypoxia. Ectopic expression of an active mutant of CaMKII (pCaMKII290) stimulated c-fos promoter activity under normoxia. Hypoxia increased phosphorylation of CREB at the serine residue 133 (Ser-133), and KN-93 attenuated this effect. Point mutations at the Ca(2+)/cAMP-responsive cis-element (Ca/CRE) attenuated, whereas point mutations in the serum-responsive cis-element (SRE) abolished transcriptional activation of c-fos by hypoxia. These results demonstrate that c-fos activation by hypoxia involves CaMK activation and CREB phosphorylation at Ser-133 and requires Ca/CRE and SRE. These observations demonstrate that Ca(2+)-dependent signaling pathways play a crucial role in induction of c-fos gene expression, which may underlie long-term adaptive responses to hypoxia.
  Journal of Applied Physiology 06/2000; 88(5):1898-906. · 3.75 Impact Factor
• Article: Intracellular pathways linking hypoxia to activation of c-fos and AP-1.

  D R Premkumar, G Adhikary, J L Overholt, M S Simonson, N S Cherniack, N R Prabhakar
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  ABSTRACT: Organisms respond to hypoxia through detection of blood oxygen levels by sensors at peripheral chemoreceptors and by receptors in certain key cells of the body. The pathways over which peripheral chemoreceptor signals are transmitted to respiratory muscles are well established. However, the intracellular pathways that transmit hypoxic stimulus to gene activation are just being identified. Using anti-sense c-fos strategy, we have shown that c-fos is essential for the activation of activator protein-1 transcription factor complex (AP-1) and subsequent stimulation of downstream genes such as tyrosine hydroxylase (TH; Mishra et al. 1998). The purpose of the present study was to identify intracellular pathways that link hypoxia to activation of c-fos. The results of the present study show that hypoxia causes Ca2+ influx through L-type voltage gated Ca2+ channels and that hypoxia-induced c-fos gene expression is Ca2+/calmodulin dependent. We also demonstrate that hypoxia activates the extracellular-regulated kinase (ERK) and p38, but not JNK. Further, phosphorylation of ERK is essential for c-fos activation via SRE cis-element. Further characterization of nuclear signalling pathways provides evidence for the involvement of Src, a non receptor protein tyrosine kinase, and Ras, a small G protein, in the hypoxia-induced c-fos gene expression. These results suggest a possible role for non-receptor protein tyrosine kinases in propagating signals from G-protein coupled receptors to the activation of immediate early genes such as c-fos during hypoxia.
  Advances in experimental medicine and biology 02/2000; 475:101-9. · 1.09 Impact Factor
• Article: Cold ischemia induces endothelin gene upregulation in the preserved kidney.

  S M Wilhelm, M S Simonson, A V Robinson, N T Stowe, J A Schulak
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  ABSTRACT: Prolonged cold ischemia time (CIT) can lead to posttransplant renal dysfunction; however, the pathophysiology remains unclear. Endothelin (ET), a potent vasoconstrictive peptide, may play a role in this injury. The purpose of this study was to determine if cold ischemia could induce renal ET-1 gene upregulation and to localize ET-1 peptide expression in the hypothermic kidney. Kidneys from Lewis rats were perfused with Viaspan, harvested, and stored at 4 degrees C for varying periods of CIT: 0, 6, 24, and 48 h. Preproendothelin-1 (ppET-1) gene upregulation was measured using a reverse-transcription polymerase-chain reaction. ET-1 peptide expression was localized using immunohistochemistry. Control kidneys (0 h CIT) had 0. 56 +/- 0.22 DU of ppET-1 mRNA. After 6 h of CIT, a 2.3-fold increase in this level was noted. Following 24 h of CIT, ppET-1 mRNA was significantly upregulated to 1.96 +/- 0.38 DU (P < 0.05). Immunohistochemistry revealed typical vascular ET-1 staining in control kidneys. At 6 h of CIT, a significant increase in the expression of ET-1 was noted in the peritubular capillaries and vasa recta. After 24 h, intense staining for ET-1 was seen in the medullary collecting ducts. After 48 h of CIT, early cellular necrosis was present along with global decreases in ET-1 expression and ppET-1 mRNA levels. This study demonstrates that 24 h of cold preservation can induce significant upregulation of the renal ET-1 gene and increase expression of the ET-1 peptide localized to both vascular endothelial and tubular epithelial surfaces of the kidney. Consequently, prolonged cold ischemia prior to transplantation may lead to delayed renal function following revascularization via endothelin-induced vasoconstriction and/or tubular impairment.
  Journal of Surgical Research 08/1999; 85(1):101-8. · 2.25 Impact Factor
• Source

  Available from: centerspan.org

  Article: Inhibition of endothelin-converting enzyme attenuates transplant vasculopathy and rejection in rat cardiac allografts.

  M S Simonson, W H Herman, A Robinson, J Schulak, D E Hricik
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  ABSTRACT: Transplant vasculopathy in kidney and heart allografts is associated with marked elevation of endothelin-1 (ET-1), but a role for ET-1 in the pathogenesis of transplant vasculopathy and chronic rejection has not been established. We, therefore, tested whether inhibition of ET-1-converting enzyme by phosphoramidon (PA) would attenuate rejection in a rat model of chronic cardiac allograft rejection (Lewis [LEW] to F344). Donor LEW rats were pretreated 24 hr before transplantation with a bolus injection of vehicle (water) or PA. Twenty- four hour after transplantation, water or PA was continuously administered through an osmotic mini-pump. Plasma ET-1 levels in Fisher 344 (F344) recipients were 0.8+/-0.1 pg/ml in water-treated rats and 0.2+/-0.2 pg/ml (P<0.01) in PA-treated rats, demonstrating that the PA treatment protocol effectively lowered ET-1 biosynthesis. LEW cardiac allografts treated with water survived (i.e., palpable heart beat) for 16.0+/-0.5 days (n=6). Inhibition of ET-1 secretion by PA improved allograft survival to 28.8+/-3.3 days (P<0.01, n=8). An analysis of cardiac arteries demonstrated that PA treatment attenuated transplant vasculopathy. A morphometric scale of neointima formation (0-5) was 1.4+/-0.2 and 3.6+/-0.2 in PA- or water-treated rats, respectively (P<0.01). The percent of luminal occlusion, as measured by microscopic image analysis, was 19+/-6% in PA-treated animals and 38+/-6% (P<0.01) in animals treated with water. PA treatment also reduced infiltration of ED-1-positive monocytes/macrophages into the vascular neointima. We conclude that, even in the absence of concomitant immunosuppression, inhibition of ET-1 biosynthesis significantly attenuates transplant vasculopathy and improves survival of LEW to F344 cardiac allografts.
  Transplantation 06/1999; 67(12):1542-7. · 4.00 Impact Factor
• Article: Endothelin up-regulation and localization following renal ischemia and reperfusion.

  S M Wilhelm, M S Simonson, A V Robinson, N T Stowe, J A Schulak
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  ABSTRACT: Endothelin (ET), a potent vasoconstrictor, is known to play a role in ischemic acute renal failure. Although preproET-1 (ppET-1) mRNA is known to be up-regulated following ischemia/reperfusion injury, it has not been determined which component of the injury (ischemia or reperfusion) leads to initial gene up-regulation. Likewise, although ET-1 peptide expression has been localized in the normal kidney, its expression pattern in the ischemic kidney has not been determined. Therefore, the purpose of this study was twofold: (a) to determine whether ischemia alone or ischemia plus reperfusion is required for the up-regulation of ppET-1 mRNA to occur, and (b) to localize ET-1 peptide expression following ischemia in the rat kidney to clarify better the role of ET in the pathophysiology of ischemia-induced acute renal failure. Male Lewis rats underwent clamping of the right renal vascular pedicle for either 30 minutes of ischemia (group 1), 60 minutes of ischemia (group 2), 30 minutes of ischemia followed by 30 minutes of reperfusion (group 3), or 60 minutes of ischemia followed by three hours of reperfusion (group 4). The contralateral kidney acted as a control. ppET-1 mRNA up-regulation and ET-1 peptide expression were examined using the reverse transcription-polymerase chain reaction and immunohistochemistry, respectively. Reverse transcription-polymerase chain reaction yielded a control (nonischemic) value of 0.6 +/- 0.2 densitometric units (DU) of ppET-1 mRNA in the kidney. Group 1 levels (30 min of ischemia alone) were 1.8 +/- 0.4 DU, a threefold increase (P < 0.05). Group 2 levels (60 min of ischemia alone) increased almost six times above baseline, 3.5 +/- 0.2 DU (P < 0.01), whereas both group 3 and group 4 (ischemia plus reperfusion) did not experience any further significant increases in mRNA levels (1.9 +/- 0.4 DU and 2.8 +/- 0.6 DU, respectively) beyond levels in group 1 or 2 animals subjected to similar ischemic periods. ET-1 peptide expression in the ischemic kidneys was significantly increased over controls and was clearly localized to the endothelium of the peritubular capillary network of the kidney. Initial ET-1 gene up-regulation in the kidney occurs secondary to ischemia, but reperfusion most likely contributes to sustaining this up-regulation. The marked increase of ET-1 in the peritubular capillary network suggests that ET-induced vasoconstriction may have a pathophysiological role in ischemic acute tubular necrosis.
  Kidney International 04/1999; 55(3):1011-8. · 6.61 Impact Factor
• Article: Elevated neointimal endothelin-1 in transplantation-associated arteriosclerosis of renal allograft recipients.

  M S Simonson, S N Emancipator, T Knauss, D E Hricik
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  ABSTRACT: Chronic renal allograft rejection is characterized histologically by transplantation-associated arteriosclerosis and glomerulosclerosis (Tx-AA and Tx-AGS). Recent studies in animal models implicate the mitogenic and pressor actions of endothelin-1 (ET-1) in Tx-AA. In humans, however, a link between elevated ET-1 secretion and Tx-AA or Tx-AGS remains unclear. In this study we analyzed expression of ET-1 in the vasculature of renal transplant patients with chronic or acute rejection and in normal controls. Renal vascular and glomerular ET-1 was assessed by immunohistochemistry in 12 patients with clinically and histologically defined chronic rejection, in 11 patients with acute rejection, and in 5 normal kidneys. ET-1 staining was also correlated with various clinical parameters and with a morphometric index of neointima formation. ET-1 secretion was measured by ELISA in cultured human vascular cell types treated with T cell- and macrophage-associated cytokines. We found that renal allografts with chronic rejection and Tx-AA expressed 6.1-fold more ET-1 in the vasculature relative to allografts with acute rejection or to normal kidneys (P < 0.01). In Tx-AA, ET-1 was detected predominantly in the neointima, which contained mostly endothelial cells and smooth muscle cells. A strong positive correlation (r = 0.82, P < 0.01) was observed between vascular ET-1 peptide expression and hypertension in patients with chronic rejection. We also showed that macrophage-associated cytokines, but not T cell-associated cytokines, stimulated ET-1 secretion in human endothelial cells, vascular smooth muscle and mesangial cells. These results demonstrate that elevated ET-1 in the neointima is associated with Tx-AA and chronic rejection. In addition, these results point to an important role for endothelial dysfunction in chronic renal allograft rejection.
  Kidney International 09/1998; 54(3):960-71. · 6.61 Impact Factor
• Article: Vascular and glomerular expression of endothelin-1 in normal human kidney.

  W H Herman, S N Emancipator, R L Rhoten, M S Simonson
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  ABSTRACT: To understand better the function of endothelin-1 (ET-1) in renal physiology, we examined vascular and glomerular expression of ET-1 in normal human kidney and in lupus nephritis. Immunohistochemical analysis revealed that renal endothelium of glomeruli, arteries, veins, and capillaries expressed ET-1. Endothelial cells were the principal source of glomerular ET-1; positive immunostaining was detected only rarely in mesangial cells and vascular smooth muscle cells from normal kidney. However, mesangial staining for ET-1 was elevated in patients with lupus nephritis, suggesting that under certain conditions mesangial cells elaborate ET-1. Indeed cultured human mesangial cells from normal subjects secreted ET-1 peptide. ET-1 secretion was augmented by the protein kinase C activator phorbol ester and by transforming growth factor-beta1 (TGF-beta1), a cytokine implicated in the development of glomerulosclerosis. Transient transfection of cultured mesangial cells with a preproET-1 reporter construct showed that the preproET-1 promoter is transcriptionally active in mesangial cells and is stimulated by TGF-beta1, phorbol ester, or ectopic expression of protein kinase beta1. Cultured human mesangial cells have both ETA and ETB receptors that contribute to ET-1-stimulated mitogenesis. Taken together, these results demonstrate that ET-1 is expressed at sites where paracrine or autocrine signaling by ET-1 might control renal vasoconstriction, glomerular filtration rate, and remodeling of the glomerulus in renal disease.
  The American journal of physiology 08/1998; 275(1 Pt 2):F8-17.
• Article: Specific repression of the preproendothelin-1 gene in intracranial arteriovenous malformations.

  R L Rhoten, Y G Comair, D Shedid, D Chyatte, M S Simonson
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  ABSTRACT: Cerebrovascular arteriovenous malformations (AVMs) display abnormal vascular development and dysautoregulation of blood flow. Genetic mechanisms that contribute to the pathogenesis and phenotype of cerebral AVMs are unknown. As a first step in understanding the pathophysiology of AVMs, the authors investigated the hypothesis that endothelial dysfunction-specifically, deregulation of endothelin-1 (ET-1) secretion-contributes to the abnormal vascular phenotype and the lack of hemodynamic autoregulation elaborated by these lesions. Endothelin-1 peptide and preproendothelin-1 (ppET1) messenger RNA were not detected in the intranidal vasculature of all 17 patients with AVMs studied, but were prominently expressed in human control subjects with normal cerebrovasculature (p < 0.01). Although AVM vasculature lacked ET-1, its expression was prominent in vasculature distant from these lesions, suggesting local repression of the ppET-1 gene. Local repression of ET-1 was specific to AVMs; ET-1 in vascular malformations of patients with Sturge-Weber disease was actually elevated compared to normal controls (p < 0.01). Repression of the ppET-1 gene was an intrinsic phenotype of AVM endothelial cells and was not due to factors in the AVM microenvironment. The authors also showed that ETA receptor expression was low in AVM vasculature compared to normal controls. Together, these results demonstrate that the ppET-1 gene is locally repressed in AVM lesions and suggest a role for abnormal ppET-1 gene regulation in the pathogenesis and clinical sequelae of cerebral AVMs.
  Journal of Neurosurgery 01/1997; 86(1):101-8. · 2.96 Impact Factor
• Article: Distinct signaling pathways mediate induction of c-fos by PGE2 in glomerular mesangial cells.

  M S Simonson, W H Herman, M J Dunn
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  ABSTRACT: Prostanoids induce expression of several immediate-early genes but the molecular mechanisms underlying these responses remain poorly characterized. We have studied induction of the proto-oncogenc c-fos by PGE2 in mesangial cells as a model of gene regulation by prostanoids. PGE2 induced marked and transient accumulation of c-fos mRNA. Induction of c-fos by PGE2 and TxA2 did not correlate with induction of phospholipase C. Addition of exogenous cAMP failed to induce c-fos mRNA, suggesting that activation of an EP2 receptor linked to adenylate cyclase did not account for induction of c-fos by PGE2. These data contrast with previous experiments in NIH 3T3 cells where PGE2 induced c-fos by a cAMP-dependent mechanism. We further showed that PGE2 induces the c-fos gene by direct activation of the serum response element. Taken together these experiments provide evidence for a pathway linking a PGE2 receptor on the plasma membrane to transcriptional activation in the nucleus.
  Advances in experimental medicine and biology 01/1997; 400A:279-86. · 1.09 Impact Factor
• Article: Roles of calcium and kinases in regulation of thrombin-stimulated preproendothelin-1 transcription.

  T A Marsen, M S Simonson, M J Dunn
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  ABSTRACT: The release of the vasoactive peptide endothelin-1 (ET-1) is Ca2+ dependent after thrombin stimulation; however, little is known about the pathways involved. We studied the importance of Ca(2+)-dependent signal transduction pathways on preproET-1 mRNA induction in human endothelial cells. Thrombin-mediated preproET-1 mRNA induction was inhibited after clamping of cytosolic free CA2+ concentration ([Ca2+]i) with 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid. Chelation of extracellular Ca2+ with ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid also had a significant inhibitory effect on the induction of preproET-1 mRNA. The Ca2+ ionophore A23187 induced constitutive as well as thrombin-stimulated preproET-1 mRNA expression. Mobilization of Ca2+ stores into the cytosol by inhibition of endoplasmic reticulum Ca(2+)-adenosinetriphosphatase with thapsigargin was effective also in inducing preproET-1 mRNA. Calmodulin antagonists W-7 and calmidazolium, as well as Ca2+/calmodulin-dependent kinase II inhibitor KN-62, significantly reduced thrombin-induced preproET-1 mRNA. Inhibition by cyclosporin A of the Ca(2+)-calmodulin-dependent phosphatase calcineurin potentiated constitutive preproET-1 mRNA. These data suggest that, in human endothelial cells, thrombin-mediated preproET-1 gene induction is regulated by a stimulatory Ca2+/calmodulin kinase II-dependent pathway.
  The American journal of physiology 12/1996; 271(5 Pt 2):H1918-25.
• Source

  Available from: nih.gov

  Article: Voltage-insensitive Ca2+ channels and Ca2+/calmodulin-dependent protein kinases propagate signals from endothelin-1 receptors to the c-fos promoter.

  Y Wang, M S Simonson
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  ABSTRACT: Endothelin-1 (ET-1) triggers poorly understood nuclear signaling cascades that control gene expression, cell growth, and differentiation. To better understand how ET-1 regulates gene expression, we asked whether voltage-insensitive Ca2+ channels and Ca2+/calmodulin-dependent protein kinases (CaMKs) propagate signals from ET-1 receptors to the c-fos promoter in mesangial cells. Ca2+ influx through voltage-insensitive Ca2+ channels, one of the earliest postreceptor events in ET-1 signaling, mediated induction of c-fos mRNA and activation of the c-fos promoter by ET-1. A CaMK inhibitor (KN-93) blocked activation of the c-fos promoter by ET-1. Ectopic expression of CaMKII potentiated stimulation by ET-1, providing further evidence that CaMKs contribute to c-fos promoter activation by ET-1. The c-fos serum response element was necessary but not sufficient for CaMKII to activate the c-fos promoter. Activation of the c-fos promoter by ET-1 and CaMKII also required the FAP cis element, an AP-1-like sequence adjacent to the serum response element. Thus, voltage-insensitive Ca2+ channels and CaMKs apparently propagate ET-1 signals to the c-fos promoter that require multiple, interdependent cis elements. Moreover, these experiments suggest an important role for voltage-insensitive Ca2+ channels in nuclear signal transduction in nonexcitable cells.
  Molecular and Cellular Biology 11/1996; 16(10):5915-23. · 5.53 Impact Factor
• Article: Ca2+ channels mediate protein tyrosine kinase activation by endothelin-1.

  M S Simonson, Y Wang, W H Herman
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  ABSTRACT: To investigate the novel interaction between endothelin-1 (ET-1) and cellular protein tyrosine kinases (PTK), we asked whether Ca2+ influx links ET-1 receptors to PTK activation. In glomerular mesangial cells, ET-1 stimulated a biphasic increase in PTK activity in anti-phosphotyrosine immunoprecipitates that temporally correlated with increased tyrosine phosphorylation of cellular proteins. ET-1 increased tyrosine phosphorylation of proteins in the cytosol and in a puncture distribution consistent with focal adhesions. Addition of ionomycin to increase Ca2+ influx stimulated PTK activity, and inhibition of extracellular Ca2+ influx blocked PTK activation by ET-1. ET-1 increased autophosphorylation of pp60c-src, which was mimicked by addition of ionomycin and inhibited by chelation of extracellular Ca2+. In addition, a selective PTK inhibitor blocked induction of c-fos mRNA by ionomycin, suggesting that Ca(2+)-stimulated PTKs contribute to a signaling pathway regulating immediate early gene expression. Taken together, these results demonstrate that ET-1 stimulates nonreceptor PTK activity, including pp60c-src, by activating Ca2+ channels and subsequent influx of extracellular Ca2+.
  The American journal of physiology 06/1996; 270(5 Pt 2):F790-7.
• Article: Nuclear signaling by endothelin-1 requires Src protein-tyrosine kinases.

  M S Simonson, Y Wang, W H Herman
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  ABSTRACT: In response to changes in vascular homeostasis, endothelial cells secrete endothelin-1 (ET-1), which in turn regulates gene expression and phenotype in underlying vascular cells. We characterized a nuclear signaling cascade in which Src protein-tyrosine kinases link the ET-1 receptor to induction of c-fos transcription. A dominant negative SrcK- kinase mutant blocked ET-1-stimulated c-fos transcription. Expression of the COOH-terminal Src kinase (Csk), which represses Src kinases, also blocked induction of c-fos transcription by ET-1. Activation of the c-fos promoter by ET-1 required both the CArG DNA sequence of the c-fos serum response element and the Ca2+/cAMP response element. In contrast, Src-induced c-fos transcription required only the CArG cis-element, demonstrating a divergence in signals regulating c-fos transcription. Thus, Src kinases contribute to a nuclear signaling cascade linking an ET-1 receptor to the CArG element of the c-fos serum response element. A Src-based pathway might play a more general role to propagate ET-1 nuclear signals that regulate cell growth and development. In addition, these results point to a widening role for nonreceptor protein-tyrosine kinases in propagating signals from G protein-coupled receptors.
  Journal of Biological Chemistry 02/1996; 271(1):77-82. · 4.77 Impact Factor
• Article: Cell selective induction and transcriptional activation of immediate early genes by hypoxia.

  N R Prabhakar, B C Shenoy, M S Simonson, N S Cherniack
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  ABSTRACT: c-fos and jun belong to the immediate early response genes (IERG) that initiate phenotypic changes in response to a variety of extracellular stimuli. In the present study, we examined whether hypoxia induces IERG expression in isolated cells. Experiments were performed on pheochromocytoma-12 (PC-12), hepatoblastoma (Hep3B), neuroblastoma and fibroblast cells that were exposed either to normoxia (21% O2) or to hypoxia (5% O2) for one hour. mRNAs for c-fos, c-jun, junB, junD were analyzed by northern blot assay. Increases in IERG mRNAs were seen in PC-12, Hep3B, and fibroblasts but not in neuroblastoma cells. Significant induction of c-fos mRNA was seen with hypoxic exposure as short as 15 min and the effects persisted at 10 h of low pO2 exposure. Hypoxia stimulated transcription from a 356 bp fragment of the c-fos promoter linked to a choloramphenicol acetyl transferase reporter in PC-12 but not in neuroblastoma cells. Fetal bovine serum, however, activated c-fos promoter both in PC-12 and neuroblastoma cells. These results demonstrate cell type selective mechanisms for c-fos promoter activation that require nucleic acid sequences with in the first 356 bp of the c-fos promoter. These observations suggest that increased IERG transcription is one of the early events in genomic adaptations to hypoxia.
  Brain Research 11/1995; 697(1-2):266-70. · 2.73 Impact Factor
• Article: Thrombin induces the preproendothelin-1 gene in endothelial cells by a protein tyrosine kinase-linked mechanism.

  T A Marsen, M S Simonson, M J Dunn
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  ABSTRACT: Thrombin stimulates synthesis and secretion of endothelin-1 (ET-1), a vasoactive peptide that triggers responses in the vascular endothelium and smooth muscle. We investigated the signal transduction pathways by which thrombin stimulates preproET-1 gene expression and ET-1 peptide secretion in macrovascular cells (human umbilical vein endothelial cells [HUVECs] and bovine pulmonary artery endothelial cells [BPAECs]) and microvascular cells (human microvascular endothelial cell line [HMEC-1]). Thrombin (4 U/mL) stimulated maximal induction of ET-1 peptide secretion and preproET-1 mRNA after 2 hours in HUVECs and BPAECs and after 1 hour in HMEC-1. A synthetic thrombin receptor activator peptide confirmed ligand-specific receptor actions to induce preproET-1 mRNA. Protein kinase C (PKC) activation by phorbol ester transiently induced preproET-1 mRNA but had no effect on ET-1 peptide synthesis. PKC inhibitors sangivamycin and calphostin C and PKC depletion failed to suppress thrombin-stimulated preproET-1 mRNA. Adenylate cyclase and cAMP-dependent protein kinase did not participate in thrombin-induced preproET-1 gene activation. Thrombin stimulated a rapid increase in phosphotyrosine-containing proteins, suggesting a role for tyrosine phosphorylation in thrombin signaling. These data demonstrate that thrombin induces the preproET-1 gene and ET-1 peptide synthesis by a PKC-independent PTK-dependent pathway in macrovascular and microvascular endothelial cells. Protein tyrosine kinase inhibitors herbimycin A and genistein blocked thrombin-stimulated preproET-1 mRNA and peptide secretion, whereas daidzein, which lacks inhibitory activity, did not suppress thrombin-induced ET-1.
  Circulation Research 07/1995; 76(6):987-95. · 9.49 Impact Factor
• Source

  Available from: jbc.org

  Article: Nuclear signaling by endothelin-1. A Ras pathway for activation of the c-fos serum response element.

  W H Herman, M S Simonson
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  ABSTRACT: Endothelin-1 (ET-1) regulates gene expression and growth of vascular cells by triggering signals that link its cognate, G protein-coupled receptor in the plasma membrane to transcriptional activation of immediate early genes in the nucleus. To define the nature of these signals, we asked whether Ras proteins contribute to activation of the c-fos serum response element (SRE) by ET-1 in mesangial cells, a microvascular cell from the renal glomerulus. ET-1 stimulated Ras by increasing Ras GTP loading. Addition of ET-1 or transfection with a plasmid expressing v-Ha-Ras stimulated SRE-dependent transcription. Activation of the c-fos SRE by ET-1 was blocked by a dominant negative Asn-17 c-Ha-Ras mutant. Expression of v-Ha-Ras reversed inhibition of ET-1-stimulated SRE transcriptional activity by Asn-17 c-Ha-Ras. ET-1 also stimulated kinase activity of c-Raf-1, a downstream effector in Ras signaling cascades. Activation of the c-fos SRE by transfection with a plasmid expressing constitutively activated delta Raf-1 was consistent with a role for Ras-Raf-1 in ET-1 signaling. Interestingly, Ras-dependent SRE activation in cells treated with ET-1 was blocked by point mutations in the SRE CArG DNA sequence, which binds the serum response factor, but not by mutations that inhibit binding of ternary complex factors (p62TCF) to the Ets DNA sequence of the SRE. Thus, Ras contributes to a nuclear signaling cascade linking ET-1 receptors to transcriptional activation through the CArG cis-element of the c-fos SRE.
  Journal of Biological Chemistry 06/1995; 270(19):11654-61. · 4.77 Impact Factor