|
| ||
|
|
||
Cell Lines Expressing (cell + line_expressing)
Selected AbstractsBrain-Derived Neurotrophic Factor, Neurotrophin-3, and Neurotrophin-4/5 Prevent the Death of Striatal Projection Neurons in a Rodent Model of Huntington's DiseaseJOURNAL OF NEUROCHEMISTRY, Issue 5 2000Esther Pérez-Navarro Abstract: Intrastriatal injection of quinolinate has been proven to be a very useful animal model to study the pathogenesis and treatment of Huntington's disease. To determine whether growth factors of the neurotrophin family are able to prevent the degeneration of striatal projection neurons, cell lines expressing brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), or neurotrophin-4/5 (NT-4/5) were grafted in the adult rat striatum before quinolinate injection. Three days after lesioning, ongoing cell death was assessed by in situ detection of DNA fragmentation. In animals grafted with the control cell line, quinolinate injection induced a gradual cell loss that was differentially prevented by intrastriatal grafting of BDNF-, NT-3-, or NT-4/5-secreting cells. Seven days after lesioning, we characterized striatal projection neurons that were protected by neurotrophins. Quinolinate injection, alone or in combination with the control cell line, induced a selective loss of striatal projection neurons. Grafting of a BDNF-secreting cell line prevented the loss of all types of striatal projection neurons analyzed. Glutamic acid decarboxylase 67-, preproenkephalin-, and preprotachykinin A- but not prodynorphin-expressing neurons were protected by grafting of NT-3- or NT-4/5-secreting cells but with less efficiency than the BDNF-secreting cells. Our findings show that neurotrophins are able to promote the survival of striatal projection neurons in vivo and suggest that BDNF might be beneficial for the treatment of striatonigral degenerative disorders, including Huntington's disease. [source] Anti-apoptotic genes Aven and E1B-19K enhance performance of BHK cells engineered to express recombinant factor VIII in batch and low perfusion cell cultureBIOTECHNOLOGY & BIOENGINEERING, Issue 4 2007Toey Nivitchanyong Abstract The engineering of production cell lines to express anti-apoptotic genes has been pursued in recent years due to potential process benefits, including enhanced cell survival, increased protein expression, and improved product quality. In this study, a baby hamster kidney cell line secreting recombinant factor VIII (BHK-FVIII) was engineered to express the anti-apoptotic genes Aven and E1B-19K. In high cell density shake flask culture evaluation, 11 clonal cell lines expressing either E1B-19K or a combination of Aven and E1B-19K showed improved survival compared to both parental and blank vector cell line controls. These cell lines exhibited lower caspase-3 activation and reduced Annexin-V binding compared to the controls. Parental and blank vector cell lines were less than 50% viable after 48 h of exposure to thapsigargin while cell lines expressing E1B-19K with or without Aven maintained viabilities approaching 90%. Subsequently, the best Aven-E1B-19K candidate cell line was compared to the parental cell line in 12-L perfusion bioreactor studies. Choosing the appropriate perfusion rates in bioreactors is a bioprocess optimization issue, so the bioreactors were operated at sequentially lower specific perfusion rates, while maintaining a cell density of 2,×,107 viable cells/mL. The viability of the parental cell line declined from nearly 100% at a perfusion rate of 0.5 nL/cell/day to below 80% viability, with caspase-3 activity exceeding 15%, at its lower perfusion limit of 0.15 nL/cell/day. In contrast, the Aven-E1B-19K cell line maintained an average viability of 94% and a maximum caspase-3 activity of 2.5% even when subjected to a lower perfusion minimum of 0.1 nL/cell/day. Factor VIII productivity, specific growth rate, and cell size decreased for both cell lines at lower perfusion rates, but the drop in all cases was larger for the parental cell line. Specific consumption of glucose and glutamine and production of lactate were consistently lower for the Aven-E1B-19K culture. Furthermore, the yield of ammonia from glutamine increased for the Aven-E1B-19K cell line relative to the parent to suggest altered metabolic pathways following anti-apoptosis engineering. These results demonstrate that expression of anti-apoptotic genes Aven and E1B-19K can increase the stability and robustness of an industrially relevant BHK-FVIII mammalian cell line over a wide range of perfusion rates. Biotechnol. Bioeng. 2007; 98: 825,841. © 2007 Wiley Periodicals, Inc. [source] Effects of inactivation-resistant agonists on the signalling, desensitization and down-regulation of bradykinin B2 receptorsBRITISH JOURNAL OF PHARMACOLOGY, Issue 5 2009Marie-Thérèse Bawolak Background and purpose:, A peptide bradykinin (BK) B2 receptor agonist partially resistant to degradation, B-9972, down-regulates this receptor subtype. We have used another recently described non-peptide agonist, compound 47a, as a tool to study further the effects of metabolically more stable and thus persistent, agonists of the BK B2 receptor on signalling, desensitization and down-regulation of this receptor. Experimental approach and key results:, Compound 47a was a partial agonist at the B2 receptor in the human umbilical vein, where it shared with B-9972 a very slow relaxation on washout, and in HEK 293 cell lines expressing tagged forms [myc, green fluorescent protein (GFP)] of the rabbit B2 receptor. Compound 47a desensitized the umbilical vein to BK. In the cellular systems, the inactivation-resistant agonists induced [Ca2+]i transients as brief as those of BK but affected other functions with a longer duration than BK [12 h; receptor endocytosis, endosomal ,-arrestin1/2 translocation, protein kinase C-dependent extracellular signal-regulated kinases (ERK)1/2 phosphorylation and c-Fos expression]. The B2 receptor,GFP was degraded in cells exposed to B-9972 or compound 47a for 12 h. The non-peptide B2 receptor antagonist LF 16-0687 prevented all effects of compound 47a, which were also absent in cells lacking recombinant B2 receptors. Conclusion and implications:, Inactivation-resistant agonists revealed a long-lasting assembly of the agonist,B2 receptor,,-arrestin complexes in endosomal structures and induce ,biased signalling' (in terms of activation of ERK and c-Fos) as a function of time. Further, B-9972 and compound 47a, unlike BK, efficiently down-regulated BK B2 receptors. [source] Constitutive activity of cannabinoid-2 (CB2) receptors plays an essential role in the protean agonism of (+)AM1241 and L768242BRITISH JOURNAL OF PHARMACOLOGY, Issue 1 2009I Mancini Background and purpose:, Cannabinoid-2 (CB2) receptor-selective agonists have shown anti-nociceptive activity in models of neuropathic and inflammatory pain, and the two agonists most widely used, (+/,)AM1241 [(2-iodo-5-nitrophenyl)-[1-(1-methylpiperidin-2-ylmethyl)-1H-indol-3-yl-methanone] and L768242 [(2,3-dichloro-phenyl)-[5-methoxy-2-methyl-3-(2-morpholin-4-yl-ethyl)-indol-1-yl]-methanone] (GW405833), have been suggested to be protean agonists. Here we investigated the role of the constitutive activity of CB2 receptors in (+)AM1241 and L768242 protean agonism. Experimental approach:, Pharmacological profiles of CB2 receptor ligands were evaluated in Chinese hamster ovary cells expressing recombinant human (hCB2) or rat (rCB2) receptors, by measuring modulation of cAMP. To assess the influence of constitutive activity on pharmacological profile, constitutive activity was abolished by pretreatment with AM630 [(6-iodo-2-methyl-1-[2-(4-morpholinyl)ethyl]-1H-indol-3-yl](4-methoxyphenyl) methanone)], followed by extensive washing. Key results:, In cell lines expressing either hCB2 or rCB2 receptors, (+)AM1241 did not reverse forskolin stimulation of cAMP levels. Conversely, L768242 was an inverse agonist at both hCB2 and rCB2 receptors. Abolition of constitutive activity disclosed (+)AM1241 and L768242 agonist activity, while activity of CP55940 [5-(1,1-dimethylheptyl)-2-[(1R,2R,5R)-5-hydroxy-2-(3-hydroxy-propyl)-cyclohexyl]-phenol] was unaffected and AM630 became a neutral antagonist. In presence of constitutively active CB2 receptors, (+)AM1241 antagonized CP55940, but when constitutive activity was abolished, it acted as a partial agonist with additive or antagonistic behaviour, depending on concentration. Conclusions and implications:, These results show that (+)AM1241 and L768242 are protean agonists at both hCB2 and rCB2 receptors. Abolition of constitutive activity reveals the agonist activity of these compounds. Thus, differences between in vivo and in vitro profiles of CB2 receptor agonists could be due to different levels of constitutive activity in recombinant versus native CB2 receptors. [source] Changes associated with the development of resistance to imatinib (STI571) in two leukemia cell lines expressing p210 Bcr/Abl protein,CANCER, Issue 7 2004Barbara Scappini M.D. Abstract BACKGROUND Although various mechanisms have been recognized as being associated with the development of resistance to imatinib mesylate in vitro and in clinical situations, their relative significance and contributions remain poorly understood, as is the sequence of events leading to the selection of the resistant phenotype. Experimental in vitro systems involving well defined cell lines and conditions can be used to some advantage to answer specific questions and to develop in vitro models of imatinib resistance that would reflect its potential heterogeneity. METHODS Two cell lines, KBM5 and KBM7, which expressed p210 Bcr/Abl and which differed in their inherent sensitivity to imatinib, the number of copies of the BCR/ABL fusion gene, and the activation of apoptotic pathways, were grown in vitro in the presence of increasing concentrations of imatinib. The resistant cells were analyzed for cell cycle progression, apoptotic response after exposure to imatinib, expression of Bcr/Abl, tyrosine kinase activity, and the presence of mutations within the adenosine triphosphate (ATP) coding domain of BCR/ABL. At various levels of resistance, the cells were transferred into drug-free media, and the stability of the resistant phenotype was determined in the absence of the drug. RESULTS In KBM7 cells, the development of resistance was characterized by loss of apoptotic response to the drug, amplification of BCR/ABL, increased levels of expression of p210 Bcr/Abl, and decreased inhibition of Bcr/Abl tyrosine kinase (TK) activity by imatinib. No mutations within the ATP-binding domain of Bcr/Abl were identified, and resistance remained stable in the absence of the drug. In KBM5 cells, which previously were found to be characterized by the acquisition of a single C-T mutation at ABL nucleotide 944 (T315I) at high levels of resistance, this same mutation was detected at an intermediate level, but not at a low level, of resistance. The response of KBM5 cells to imatinib was characterized by a low level of apoptotic response, a marginal increase in BCR/ABL copy number, a modest increase in p210 expression, and a highly imatinib-resistant Bcr/Abl TK. Partial reversal of resistance was observed in highly resistant KBM5-STI571R1.0 cells, which continued to display the C-T mutation. In KBM5 cells with an intermediate level of resistance, the T315I mutation was no longer detectable upon their reversal to the sensitive phenotype. CONCLUSIONS BCR/ABL amplification with subsequent overexpression of Bcr/Abl protein, loss of apoptotic response, or point mutation of the ATP-binding site of BCR/ABL was associated alternatively with the acquisition of the resistant phenotype, supporting the notion that multiple mechanisms are involved in the induction of resistance to imatinib. The initial number of BCR/ABL copies itself was not related directly to the degree of resistance. The reversibility of the resistance may be complete, partial, or irreversible, depending on the mechanism(s) involved and the degree of resistance. Both cell lines serve as models for further elucidation of various aspects of imatinib-resistance mechanisms. Cancer 2004;100:1459,71. © 2004 American Cancer Society. [source] | |||||||||||||