Your search keyword '"wag/rij rat model"' showing total 6 results

1. Critical Role of Astrocytic Polyamine and GABA Metabolism in Epileptogenesis.

Author

Kovács, Zsolt, Skatchkov, Serguei N., Veh, Rüdiger W., Szabó, Zsolt, Németh, Krisztina, Szabó, Pál T., Kardos, Julianna, and Héja, László

Subjects

POLYAMINES, GABA, TEMPORAL lobe epilepsy, EPILEPTIFORM discharges, METABOLISM, ASTROCYTES

Abstract

Accumulating evidence indicate that astrocytes are essential players of the excitatory and inhibitory signaling during normal and epileptiform activity via uptake and release of gliotransmitters, ions, and other substances. Polyamines can be regarded as gliotransmitters since they are almost exclusively stored in astrocytes and can be released by various mechanisms. The polyamine putrescine (PUT) is utilized to synthesize GABA, which can also be released from astrocytes and provide tonic inhibition on neurons. The polyamine spermine (SPM), synthesized form PUT through spermidine (SPD), is known to unblock astrocytic Cx43 gap junction channels and therefore facilitate astrocytic synchronization. In addition, SPM released from astrocytes may also modulate neuronal NMDA, AMPA, and kainate receptors. As a consequence, astrocytic polyamines possess the capability to significantly modulate epileptiform activity. In this study, we investigated different steps in polyamine metabolism and coupled GABA release to assess their potential to control seizure generation and maintenance in two different epilepsy models: the low-[Mg2+] model of temporal lobe epilepsy in vitro and in the WAG/Rij rat model of absence epilepsy in vivo. We show that SPM is a gliotransmitter that is released from astrocytes and significantly contributes to network excitation. Importantly, we found that inhibition of SPD synthesis completely prevented seizure generation in WAG/Rij rats. We hypothesize that this antiepileptic effect is attributed to the subsequent enhancement of PUT to GABA conversion in astrocytes, leading to GABA release through GAT-2/3 transporters. This interpretation is supported by the observation that antiepileptic potential of the Food and Drug Administration (FDA)-approved drug levetiracetam can be diminished by specifically blocking astrocytic GAT-2/3 with SNAP-5114, suggesting that levetiracetam exerts its effect by increasing surface expression of GAT-2/3. Our findings conclusively suggest that the major pathway through which astrocytic polyamines contribute to epileptiform activity is the production of GABA. Modulation of astrocytic polyamine levels, therefore, may serve for a more effective antiepileptic drug development in the future. [ABSTRACT FROM AUTHOR]

Published

2022

2. Critical Role of Astrocytic Polyamine and GABA Metabolism in Epileptogenesis

Author

Zsolt Kovács, Serguei N. Skatchkov, Rüdiger W. Veh, Zsolt Szabó, Krisztina Németh, Pál T. Szabó, Julianna Kardos, and László Héja

Subjects

absence epilepsy, WAG/Rij rat model, APCHA/spermine synthase inhibitor, 4-MCHA/spermidine synthase inhibitor, polyamines in the central nervous system, neurons, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Accumulating evidence indicate that astrocytes are essential players of the excitatory and inhibitory signaling during normal and epileptiform activity via uptake and release of gliotransmitters, ions, and other substances. Polyamines can be regarded as gliotransmitters since they are almost exclusively stored in astrocytes and can be released by various mechanisms. The polyamine putrescine (PUT) is utilized to synthesize GABA, which can also be released from astrocytes and provide tonic inhibition on neurons. The polyamine spermine (SPM), synthesized form PUT through spermidine (SPD), is known to unblock astrocytic Cx43 gap junction channels and therefore facilitate astrocytic synchronization. In addition, SPM released from astrocytes may also modulate neuronal NMDA, AMPA, and kainate receptors. As a consequence, astrocytic polyamines possess the capability to significantly modulate epileptiform activity. In this study, we investigated different steps in polyamine metabolism and coupled GABA release to assess their potential to control seizure generation and maintenance in two different epilepsy models: the low-[Mg2+] model of temporal lobe epilepsy in vitro and in the WAG/Rij rat model of absence epilepsy in vivo. We show that SPM is a gliotransmitter that is released from astrocytes and significantly contributes to network excitation. Importantly, we found that inhibition of SPD synthesis completely prevented seizure generation in WAG/Rij rats. We hypothesize that this antiepileptic effect is attributed to the subsequent enhancement of PUT to GABA conversion in astrocytes, leading to GABA release through GAT-2/3 transporters. This interpretation is supported by the observation that antiepileptic potential of the Food and Drug Administration (FDA)-approved drug levetiracetam can be diminished by specifically blocking astrocytic GAT-2/3 with SNAP-5114, suggesting that levetiracetam exerts its effect by increasing surface expression of GAT-2/3. Our findings conclusively suggest that the major pathway through which astrocytic polyamines contribute to epileptiform activity is the production of GABA. Modulation of astrocytic polyamine levels, therefore, may serve for a more effective antiepileptic drug development in the future.

Published

2022

3. Increased growth of colorectal liver metastasis following partial hepatectomy.

Author

Krause, P., Flikweert, H., Monin, M., Seif Amir Hosseini, A., Helms, G., Cantanhede, G., Ghadimi, B., and Koenig, S.

Abstract

Nearly 50 % of colorectal cancer (CRC) patients develop liver metastases with liver resection being the only option to cure patients. Residual micrometastases or circulating tumor cells are considered a cause of tumor relapse. This work investigates the influence of partial hepatectomy (PH) on the growth and molecular composition of CRC liver metastasis in a syngeneic rat model. One million CC531 colorectal tumor cells were implanted via the portal vein in WAG/Rij rats followed by a 30 % PH a day later. Control groups either received tumor cells followed by a sham-operation or were injected with a buffer solution followed by PH. Animals were examined with magnetic resonance imaging (MRI) and liver tissues were processed for immunolabeling and PCR analysis. One-third PH was associated with an almost threefold increase in relative tumor mass (MRI volumetry: 2.8-fold and transcript levels of CD44: 2.3-fold). Expression of molecular markers for invasiveness and aggressiveness (CD49f, CXCR4, Axin2 and c-met) was increased following PH, however with no significant differences when referring to the relative expression levels (relating to tumor mass). Liver metastases demonstrated a significantly higher proliferation rate (Ki67) 2 weeks following PH and cell divisions also increased in the surrounding liver tissue. Following PH, the stimulated growth of metastases clearly exceeded the compensation in liver volume with long-lasting proliferative effects. However, the distinct tumor composition was not influenced by liver regeneration. Future investigations should focus on the inhibition of cell cycle (i.e. systemic therapy strategies, irradiation) to hinder liver regeneration and therefore restrain tumor growth. [ABSTRACT FROM AUTHOR]

Published

2013

4. Metabotropic glutamate receptors in the thalamocortical network: Strategic targets for the treatment of absence epilepsy.

Author

Ngomba, Richard Teke, Santolini, Ines, Salt, Thomas E., Ferraguti, Francesco, Battaglia, Giuseppe, Nicoletti, Ferdinando, and van Luijtelaar, Gilles

Subjects

*SYNAPTIC vesicles, *LIGANDS (Biochemistry), *PETIT mal epilepsy, *LABORATORY rats, EPILEPSY research

Abstract

Summary [ABSTRACT FROM AUTHOR]

Published

2011

5. Metabotropic glutamate receptors in the thalamocortical network: Strategic targets for the treatment of absence epilepsy

Author

Richard Teke, Ngomba, Ines, Santolini, Thomas E, Salt, Francesco, Ferraguti, Giuseppe, Battaglia, Ferdinando, Nicoletti, and Gilles, van Luijtelaar

Subjects

mice, absence, absence seizures, animal, animals, anticonvulsants, cerebral cortex, disease models, drug effects/physiology, drug therapy, epilepsy, humans, metabotropic glutamate, mglu receptors, nerve net, neuroglia, pharmacology/therapeutic use, rats, receptors, spike-wave discharges, thalamus, wag/rij rat model, Receptors, Metabotropic Glutamate, Disease Models, Animal, Epilepsy, Absence

Abstract

Metabotropic glutamate (mGlu) receptors are positioned at synapses of the thalamocortical network that underlie the development of spike-and-wave discharges (SWDs) associated with absence epilepsy. The modulatory role of individual mGlu receptor subtypes on excitatory and inhibitory synaptic transmission in the cortico-thalamo-cortical circuitry makes subtype-selective mGlu receptor ligands potential candidates as novel antiabsence drugs. Some of these compounds are under clinical development for the treatment of numerous neurologic and psychiatric disorders, and might be soon available for clinical studies in patients with absence seizures refractory to conventional medications. Herein we review the growing evidence that links mGlu receptors to the pathophysiology of pathologic SWDs moving from the anatomic localization and function of distinct mGlu receptor subtypes in the cortico-thalamo-cortical network to in vivo studies in mouse and rat models of absence epilepsy.

Published

2011

6. Increased growth of colorectal liver metastasis following partial hepatectomy

Author

Sarah Koenig, H Flikweert, Petra Krause, G Cantanhede, MB Monin, BM Ghadimi, Gunther Helms, and A Seif Amir Hosseini

Subjects

Pathology, medicine.medical_specialty, Cancer Research, Partial hepatectomy, Colorectal cancer, medicine.medical_treatment, CXCR4, Metastasis, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Circulating tumor cell, Colorectal metastases, medicine, Animals, Hepatectomy, CC531, WAG/Rij rat model, Liver regeneration, Magnetic resonance imaging, 030304 developmental biology, DNA Primers, 0303 health sciences, biology, Base Sequence, CD44, Liver Neoplasms, General Medicine, Cell cycle, medicine.disease, Magnetic Resonance Imaging, Rats, Oncology, 030220 oncology & carcinogenesis, biology.protein, Colorectal Neoplasms, Research Paper

Abstract

Nearly 50 % of colorectal cancer (CRC) patients develop liver metastases with liver resection being the only option to cure patients. Residual micrometastases or circulating tumor cells are considered a cause of tumor relapse. This work investigates the influence of partial hepatectomy (PH) on the growth and molecular composition of CRC liver metastasis in a syngeneic rat model. One million CC531 colorectal tumor cells were implanted via the portal vein in WAG/Rij rats followed by a 30 % PH a day later. Control groups either received tumor cells followed by a sham-operation or were injected with a buffer solution followed by PH. Animals were examined with magnetic resonance imaging (MRI) and liver tissues were processed for immunolabeling and PCR analysis. One-third PH was associated with an almost threefold increase in relative tumor mass (MRI volumetry: 2.8-fold and transcript levels of CD44: 2.3-fold). Expression of molecular markers for invasiveness and aggressiveness (CD49f, CXCR4, Axin2 and c-met) was increased following PH, however with no significant differences when referring to the relative expression levels (relating to tumor mass). Liver metastases demonstrated a significantly higher proliferation rate (Ki67) 2 weeks following PH and cell divisions also increased in the surrounding liver tissue. Following PH, the stimulated growth of metastases clearly exceeded the compensation in liver volume with long-lasting proliferative effects. However, the distinct tumor composition was not influenced by liver regeneration. Future investigations should focus on the inhibition of cell cycle (i.e. systemic therapy strategies, irradiation) to hinder liver regeneration and therefore restrain tumor growth. peerReviewed