Project description:To determine spinal cord injury (SCI) induced changes in gene expression, laser capture microscopy (LCM) and Affymetrix microarrays were used to profiles three distinct populations of motor neurons (MNs) in five sets of littermates. In each set, one littermate received a lamenectomy (sham operated), and the other received a complete spinal cord transection. Each MN population was caudal to the transection and not axotomized. Thus, MNs in transected animals were responding to two major insults: deafferentation and changing microenvironments due to spreading immune and inflammatory responses. A total of 30 expression profiles from sham operated control animals have been uploaded to GEO database with accession number GSE2595. The current series contains 32 motoneuron expression profiles from spinalized mice. All chips (30 sham + 32 transection) were generated together using RMA in 2004. Experiment Overall Design: In this study we determine SCI induced changes in gene expression in lateral motoneurons (LMN), medial motoneurons (MMN) and intermediolateral column motoneurons (IML). Five sets of male littermates were used in these experiments (sets a-e). In each set, one littermate received a lamenectomy (sham operated), and the other received a complete spinal cord transection. Four of the sets (a-d) consisted of one transect and one littermate sham operated control. The fifth set (e) had an additional transect. All surgeries were performed on postnatal day (P) 24. Three weeks later (P45), the animals were sacrificed and their spinal cords were removed and sectioned for LCM. Each of the three cell types was captured from every animal. The expression profiles of the three classes of MNs were obtained using Affymetrix microarrays.
Project description:Studies in the developing spinal cord suggest that different motoneuron (MN) cell types express very different genetic programs, but the degree to which adult programs differ is unknown. To compare genetic programs between adult MN columnar cell types, we used laser capture microdissection (LCM) and Affymetrix microarrays to create expression profiles for three columnar cell types: lateral and medial MNs from lumbar segments and sympathetic preganglionic motoneurons located in the thoracic intermediolateral nucleus. A comparison of the three expression profiles indicated that 7% (813/11,552) of the genes showed significant differences in their expression levels. The largest differences were observed between sympathetic preganglionic MNs and the lateral motor column, with 6% (706/11,552) of the genes being differentially expressed. Significant differences in expression were observed for 1.8% (207/11,552) of the genes when comparing sympathetic preganglionic MNs with the medial motor column. Lateral and medial MNs showed the least divergence, with 1.3% (150/11,552) of the genes being differentially expressed. These data indicate that the amount of divergence in expression profiles between identified columnar MNs does not strictly correlate with divergence of function as defined by innervation patterns (somatic/muscle vs. autonomic/viscera). Classification of the differentially expressed genes with regard to function showed that they underpin all fundamental cell systems and processes, although most differentially expressed genes encode proteins involved in signal transduction. Mining the expression profiles to examine transcription factors essential for MN development suggested that many of the same transcription factors participate in combinatorial codes in embryonic and adult neurons, but patterns of expression change significantly
Project description:The study was designed to identify genes regulated after spinal transection that might contribute to regenerative growth of neurons projecting from the NMLF in Zebrafish. Zebrafish were injured by surgical transection of the spinal cord at 1 mm caudal to the brainstem-spinal cord junction (Injured). Animals receiving sham surgery (identical surgical procedures without transection) served as control (Control). The nucleus of the medial longitudinal fascicle (NMLF) was laser capture microdissected from approximately 30 frozen sections. RNA was prepared, amplified, and run on Affymetrix Zebrafish arrays. Zebrafish were used because they recover swimming function after spinal transection in about 6 weeks. The NMLF has been identified as a prominent group of neurons that descend through the site of injury in the spinal cord and that regenerate after injury. Times were selected to distinguish early events from those in the timeframe of regenerative growth.
Project description:The study was designed to identify genes regulated after spinal transection that might contribute to regenerative growth of neurons projecting from the NMLF in Zebrafish. Zebrafish were injured by surgical transection of the spinal cord at 1 mm caudal to the brainstem-spinal cord junction (Injured). Animals receiving sham surgery (identical surgical procedures without transection) served as control (Control). The nucleus of the medial longitudinal fascicle (NMLF) was laser capture microdissected from approximately 30 frozen sections. RNA was prepared, amplified, and run on Affymetrix Zebrafish arrays.
Project description:To determine spinal cord injury (SCI) induced changes in gene expression, laser capture microscopy (LCM) and Affymetrix microarrays were used to profiles three distinct populations of motor neurons (MNs) in five sets of littermates. In each set, one littermate received a lamenectomy (sham operated), and the other received a complete spinal cord transection. Each MN population was caudal to the transection and not axotomized. Thus, MNs in transected animals were responding to two major insults: deafferentation and changing microenvironments due to spreading immune and inflammatory responses. A total of 30 expression profiles from sham operated control animals have been uploaded to GEO database with accession number GSE2595. The current series contains 32 motoneuron expression profiles from spinalized mice. All chips (30 sham + 32 transection) were generated together using RMA in 2004.
Project description:The vacuolar-vesicular protein sorting (vps) factors are involved in vesicular trafficking in eukaryotic cells. The wobbler mouse is an animal model of amyotrophic lateral sclerosis. Motoneuron survival and spermiogenesis are severely compromised in the wobbler mouse. Keywords: dual colour hybridisation on cDNA microarrays, Wobbler, Vps54, spinal cord, testis
Project description:Label-free mass spectrometry-based quantitative proteomics was applied to a larval zebrafish spinal cord injury model, which allows axon regeneration and functional recovery within two days (days post lesion; dpl) after a spinal cord transection in 3 day-old larvae (dpf). Proteomic profiling of the lesion site was performed at 1 dpl and 2 dpl as well as corresponding age-matched unlesioned control tissue (4 dpf as control for 1 dpl; 5 dpf as control for 2 dpl).
Project description:Analysis of expression changes in prelabeled laser-microdissected thoracic propriospinal neurons at different times after low-thoracic spinal cord transection in adult rats. Propriospinal neurons projecting to the lumbar enlargement were captured at various time points following no lesion or low thoracic spinal cord transection.
Project description:Label-free mass spectrometry-based quantitative proteomics was applied to a larval zebrafish spinal cord injury model, which allows axon regeneration and functional recovery within two days (days post lesion; dpl) after a spinal cord transection in 3 day-old larvae (dpf). Proteomic profiling was performed of the lesion site at 1 dpl in control animals and animals with pdgfrb+ cell-specific overexpression of either zebrafish chondoradherin (chad; chad-mCherry fusion), fibromodulin a (fmoda; fmoda-mCherry fusion), lumican (lum; lum-mCherry fusion) or prolargin (prelp; prelp-mCherry fusion).