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1.
Neuroscience ; 223: 355-64, 2012 Oct 25.
Article in English | MEDLINE | ID: mdl-22864186

ABSTRACT

Profilin1 is an actin monomer-binding protein, essential for cytoskeletal dynamics. Based on its broad expression in the brain and the localization at excitatory synapses (hippocampal CA3-CA1 synapse, cerebellar parallel fiber (PF)-Purkinje cell (PC) synapse), an important role for profilin1 in brain development and synapse physiology has been postulated. We recently showed normal physiology of hippocampal CA3-CA1 synapses in the absence of profilin1, but impaired glial cell binding and radial migration of cerebellar granule neurons (CGNs). Consequently, brain-specific inactivation of profilin1 by exploiting conditional mutants and Nestin-mediated cre expression resulted in a cerebellar hypoplasia, aberrant organization of cerebellar cortex layers, and ectopic CGNs. Apart from these findings we noted a loss of PCs and an irregularly shaped PC layer in adult mutants. In this study, we show that PC migration and development are not affected in profilin1 mutants, suggesting cell type-specific functions for profilin1 in PCs and CGNs. PC loss begins during the second postnatal week and progresses until adulthood with no further impairment in aged mutants. In Nestin-cre profilin1 mutants, defects in cerebellar cortex cytoarchitecture are associated with impaired motor coordination. However, in L7-cre mutants, lacking profilin1 specifically in PCs, the cerebellar cortex cytoarchitecture is unchanged. Thereby, our results demonstrate that the loss of PCs is not caused by cell-autonomous defects, but presumably by impaired CGN migration. Finally, we show normal functionality of PF-PC synapses in the absence of profilin1. In summary, we conclude that profilin1 is crucially important for brain development, but dispensable for the physiology of excitatory synapses.


Subject(s)
Brain/pathology , Mutation/genetics , Profilins/genetics , Psychomotor Disorders/genetics , Psychomotor Disorders/pathology , Purkinje Cells/physiology , Action Potentials/genetics , Age Factors , Animals , Animals, Newborn , Biophysics , Brain/growth & development , Disease Models, Animal , Disease Progression , Electric Stimulation , Gene Expression Regulation, Developmental/genetics , In Vitro Techniques , Intermediate Filament Proteins/genetics , Intermediate Filament Proteins/metabolism , Mice , Mice, Transgenic , Motor Activity/genetics , Nerve Tissue Proteins/genetics , Nerve Tissue Proteins/metabolism , Nestin , Patch-Clamp Techniques , Purkinje Cells/pathology
2.
Cell Death Differ ; 19(6): 958-67, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22139132

ABSTRACT

Non-muscle cofilin (n-cofilin) is a member of the ADF/cofilin family of actin depolymerizing proteins. Recent studies reported a mitochondrial translocation of n-cofilin during apoptosis. As these studies also revealed impaired cytochrome c release and a block in apoptosis upon small interfering RNA-mediated n-cofilin knockdown, n-cofilin was postulated to be essential for apoptosis induction. To elucidate the general importance of ADF/cofilin activity for apoptosis, we exposed mouse embryonic fibroblasts deficient for n-cofilin, ADF (actin depolymerizing factor), or all ADF/cofilin isoforms to well-characterized apoptosis inducers. Cytochrome c release, caspase-3 activation, and apoptotic chromatin condensation were unchanged in all mutant fibroblasts. Thus, we conclude that ADF/cofilin activity is not generally required for induction or progression of apoptosis in mammalian cells. Interestingly, mitochondrial association of ADF and n-cofilin during apoptosis was preceded by, and dependent on, actin that translocated by a yet unknown mechanism to mitochondria during cell death.


Subject(s)
Apoptosis , Cofilin 1/metabolism , Destrin/metabolism , Mitochondria/metabolism , Actins/metabolism , Animals , Caspase 3/metabolism , Cells, Cultured , Cofilin 1/antagonists & inhibitors , Cofilin 1/genetics , Cytochromes c/metabolism , Destrin/antagonists & inhibitors , Destrin/genetics , Fibroblasts/drug effects , Fibroblasts/metabolism , Hydrogen Peroxide/toxicity , Mice , RNA Interference , RNA, Small Interfering/metabolism , Staurosporine/pharmacology
3.
Comp Biochem Physiol B Biochem Mol Biol ; 150(2): 177-82, 2008 Jun.
Article in English | MEDLINE | ID: mdl-18396432

ABSTRACT

The intestinal absorption of di- and tri-peptides generally occurs via the oligopeptide transporter, PepT1. This study evaluates the expression of PepT1 in larval Atlantic cod (Gadus morhua) during the three weeks following the onset of exogenous feeding. Larval Atlantic cod were fed either wild captured zooplankton or enriched rotifers. cDNA was prepared from whole cod larvae preceding first feeding and at 1000 each Tuesday and Thursday for the following three weeks. Spatial and temporal expression patterns of PepT1 mRNA were compared between fish consuming the two prey types using in situ hybridization and quantitative real-time PCR. Results indicated that PepT1 mRNA was expressed prior to the onset of exogenous feeding. In addition, PepT1 was expressed throughout the digestive system except the esophagus and sphincter regions. Expression slightly increased following first-feeding and continued to increase throughout the study for larvae feeding on both prey types. When comparing PepT1 expression in larvae larger than 0.15-mg dry mass with expression levels in larvae prior to feeding, no differences were detected for larvae fed rotifers, but the larvae fed zooplankton had significantly greater PepT1 expression at the larger size. In addition, PepT1 expression in the zooplankton fed larvae larger than 0.15-mg dry mass had significantly greater expression than rotifer fed larvae of a similar weight. Switching prey types did not affect PepT1 expression. These results indicate that Atlantic cod PepT1 expression was slightly different relative to dietary treatment during the three weeks following first-feeding. In addition, PepT1 may play an important role in the larval nutrition since it is widely expressed in the digestive tract.


Subject(s)
Fish Proteins/metabolism , Gadus morhua/metabolism , Symporters/metabolism , Animals , Diet , Fish Proteins/genetics , Gadus morhua/genetics , Gadus morhua/growth & development , In Situ Hybridization , Larva/growth & development , Larva/metabolism , Peptide Transporter 1 , RNA, Messenger/analysis , RNA, Messenger/metabolism , Symporters/genetics
4.
J Fish Dis ; 26(5): 277-85, 2003 05.
Article in English | MEDLINE | ID: mdl-12962236

ABSTRACT

The potential to use adult Artemia to deliver erythromycin to first-feeding sockeye salmon, Oncorhynchus nerka (Walbaum), was investigated in three trials. In the first trial, first-feeding sockeye were fed live erythromycin enriched adult Artemia or pellets containing equal amounts of erythromycin for 35 days. At the end of the trial, tissue erythromycin concentration of the fish fed the live Artemia was significantly greater (P < 0.05, 25.52 +/- 1.29 microg mL(-1); mean +/- SEM), than the tissue concentration of the fish fed the pellets (0.72 +/- 0.01 microg mL(-1)). In the second trial, first-feeding sockeye were fed either live or freeze-dried bioencapsulated erythromycin (adult Artemia) or pellets containing erythromycin daily for 21 days. Mean daily erythromycin concentration in fish fed the freeze-dried Artemia, live Artemia, or pellets did not differ significantly. In the third trial, apparent erythromycin digestibility was determined. Significantly more (P < 0.05) erythromycin was retained by juvenile sockeye fed freeze-dried bioencapsulated erythromycin (98.3 +/- 1.0%) compared with medicated pellets (89.2 +/- 1.7%). Uptake of bioencapsulated erythromycin from adult Artemia (live or freeze-dried) appears to be greater than uptake from pellets. Freeze-dried and live Artemia were equally effective at delivery suggesting enriched freeze-dried adult Artemia could be produced into a highly palatable, consistent, off-the-shelf product.


Subject(s)
Animal Feed , Anti-Bacterial Agents/pharmacokinetics , Artemia/chemistry , Erythromycin/pharmacokinetics , Salmon/metabolism , Administration, Oral , Animals , Anti-Bacterial Agents/administration & dosage , Digestion , Erythromycin/administration & dosage , Freeze Drying/veterinary , Random Allocation , Salmon/growth & development , Tissue Distribution
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