nucleottde phosphodtesterase acttvities (PDE) expressed m mouse N 18TG3 neuroblastoma cells IS reported. At least 3 peaks of acttvity were isolated by DEAE chromatography.none of which was calcmm-calmodulin sttmulated and cGMP sttmulated or mhibtted A first peak elutes at 200 mM sodium acetate: it specifically hydrolyzes cGMP with a II',;, of 4.7 PM and shows senstttvity to zaprinast [M&B 129481 (I .8 PM). A second peak elutmg at 410 mM sodturn acetate hydrolyzes both cychc nucleotides. A third peak. spectfic for CAMP hydrolyses. elutes at 580 mM sodtum acetate. has a K,,,, of 3.1 PM and IS senstttve to RO 20 1723 (7.6 PM) and rohpram (2 /M ). Hydrodynamtc analysts showed for the first peak a Stokes radius of 5.3 nm wtth a sedtmentatton coeffictent of 8 I S. a frtctional ratto tJ7f,,) of I .3l and a nattve molecular mass of IS? kDa. The same analysts for peak 3 showed a Stokea radius of 4 I nm wtth a sedimentatton coeffictent of 3 7 S. a fractional ratto of I 63 and a native molecular mass of 56 kDa The btochemtcal features reported for the enzyme eluttng m the first peak. and Its cGMP-bmding acttvity sttmulated by mhibttors of phosphodtesterase acttvtty. demonstrate that tt belongs to the PDE V subfamily; on the other hand the cAMP sprc~fic enzyme eluting m the third peak can be assigned to the 'RO 20 1724 inhibtted' form. The sigmficance of these findings is dtscussed m relatton to the functtonal characteristic5 of the NIRTG:! cell line Hugh affimty cychc nucleottde phosphodiesterase: PDE V subfamtly: Neuroblastoma cell: Imtdarolinone: Zaprmast
It is now widely accepted that cyclic nucleotide phosphodiesterases (PDEs) play fundamental roles in signal transduction pathways; they show a remarkable molecular complexity, different tissue distribution and complex regulatory mechanisms. Here we report PDE isoforms expression in two dibutyryl cyclic AMP differentiated murine cell lines: the hybrid neuroblastoma-glioma 108CC15 and the parental neuroblastoma N18TG2. They differ in the ability to establish functional synapses, a feature present only in the former. Ionic exchange chromatography elution profiles of N18TG2 and 108CC15 undifferentiated cell extracts show two main peaks of activity. The first one hydrolyzes cyclic GMP and is specifically inhibited by Zaprinast, thus representing a member of the PDE5 family. The second peak hydrolyzes cyclic AMP and is significantly inhibited by rolipram, as all the PDE4 family members. The induction of differentiation by dibutyryl cyclic AMP in both clonal lines results in an increase of PDE activities only after 3 hr of treatment, suggesting that protein neosynthesis is involved. Interestingly in both clones, besides the increase in cyclic AMP hydrolyzing specific activity (3.1-fold in 108CC15 and 2.5-fold in N18TG2), we also observed an increase in cyclic GMP hydrolyzing activity (1.7-fold in 108CC15 and 4.3-fold in N18TG2). While the induction of PDE4, previously reported also in other cellular systems, could be considered as a feedback response to the higher cyclic AMP levels, this is not true for the isoform that hydrolyzes cyclic GMP. These data suggest that the induction of PDE isoforms in neuroblastoma cells could be related to the activation of neuronal differentiative pathway.
We investigated the level and characteristics of "low Km" 3'-5' cyclic nucleotide phosphodiesterase (PDE) activity in adult and embryo chick spinal cord. The DEAE cellulose chromatography elution profile of Triton X-100 extracts showed a single peak of calmodulin-dependent cAMP/cGMP PDE activity. After two additional purification steps, this activity showed a five-fold activation by calmodulin (Ka = 1.5 nM) for cGMP hydrolysis, and a linear kinetic behaviour with a Km of 1.3 microM. Conversely, the activity showed a biphasic behaviour for cAMP hydrolysis, with Km values of 3.1 and 18.5 microM. The enzyme showed a Stokes radius of 4.5 nm. Western blot analysis of the purified enzyme revealed two immunoreactive bands with molecular mass of 59 and 65 kDa, respectively. Immunohistochemical staining showed motoneuron decoration both on cell soma and fibres. The developmental pattern of Ca2+-calmodulin-dependent PDE expression in spinal cord was also studied; the hydrolytic activity for both substrates has been found to increase constantly from E5 to post-hatching stages, when it appears 5.6-fold higher as compared to the early embryo levels. Furthermore, in cultured spinal cord neurons from E8 embryos, muscle extract has been shown to induce a two-fold increase of Ca2+-calmodulin-dependent cGMP activity. In conclusion, the studies reported here present three relevant findings: (1) the presence in adult and embryo chick spinal cord of PDE activities with characteristics similar to those of the mammalian PDE I enzyme; (2) its localization in the ventral horn motoneurons; (3) its regulated expression during embryogenesis that is possibly related to soluble epigenetic factors produced by the target cells.
We investigated the level and characteristics of "low Km" 3'-5' cyclic nucleotide phosphodiesterase (PDE) activity in adult and embryo chick spinal cord. The DEAE cellulose chromatography elution profile of Triton X-100 extracts showed a single peak of calmodulin-dependent cAMP/cGMP PDE activity. After two additional purification steps, this activity showed a five-fold activation by calmodulin (Ka = 1.5 nM) for cGMP hydrolysis, and a linear kinetic behaviour with a Km of 1.3 microM. Conversely, the activity showed a biphasic behaviour for cAMP hydrolysis, with Km values of 3.1 and 18.5 microM. The enzyme showed a Stokes radius of 4.5 nm. Western blot analysis of the purified enzyme revealed two immunoreactive bands with molecular mass of 59 and 65 kDa, respectively. Immunohistochemical staining showed motoneuron decoration both on cell soma and fibres. The developmental pattern of Ca2+-calmodulin-dependent PDE expression in spinal cord was also studied; the hydrolytic activity for both substrates has been found to increase constantly from E5 to post-hatching stages, when it appears 5.6-fold higher as compared to the early embryo levels. Furthermore, in cultured spinal cord neurons from E8 embryos, muscle extract has been shown to induce a two-fold increase of Ca2+-calmodulin-dependent cGMP activity. In conclusion, the studies reported here present three relevant findings: (1) the presence in adult and embryo chick spinal cord of PDE activities with characteristics similar to those of the mammalian PDE I enzyme; (2) its localization in the ventral horn motoneurons; (3) its regulated expression during embryogenesis that is possibly related to soluble epigenetic factors produced by the target cells.
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