Exposure to Trimethyltin Significantly Enhances Acetylcholinesterase Staining in the Rat Dentate Gyrus

Woodruff, Michael L., Baisden, Ronald H.

01 January 1990

Trimethyltin (TMT) is known to produce substantial damage to the hippocampal formation. It also destroys neurons within the entorhinal cortex, thereby causing degeneration of perforant path afferents that terminate in the outer molecular layer (OML) of the dentate gyrus. Surgical destruction of the entorhinal cortex also causes the perforant path to degenerate. This leads to reactive synpatogenesis (axonal sprouting) of septal afferents to the dentate gyrus. The purpose of the present study was to determine whether administration of 6 mg/kg of TMT by gavage to rats would cause axonal sprouting within the septodentate projection. A histochemical stain for acetycholinesterase (AChE) was used. Compared to control subjects rats given TMT exhibited significantly denser AChE staining in the dentate OML. This is putative indication of reactive synaptogenesis within the cholinergic projection to this layer of the dentate and is somewhat surprising because other neurotoxins, such as lead and ethanol, that affect neurons within the hippocampal formation reduce the capacity for reactive synaptogenesis in response to lesions of the entorhinal cortex.

acetylcholinesterase

axonal sprouting

cholinergic

dentate gyrus

entorhinal cortex

hippocampus

neurotoxin

rat

reactive synaptogenesis

trimethyltin

Biomedical Sciences

Effects of Trimethyltin (TMT) on Choline Acetyltransferase Activity in the Rat Hippocampus - Influence of Dose and Time Following Exposure

Cannon, Richard L., Hoover, Donald B., Baisden, Ronald H., Woodruff, Michael L.

01 September 1994

Trimethyltin (TMT) destroys specific subfields of the hippocampus in the rat. TMT also increases choline acetyltransferase (ChAT) activity in CA1 of Ammon's horn and the outer molecular layer of the dentate gyrus. This observation suggests that axonal sprouting occurs in the cholinergic septohippocampal system in response to TMT. However, neither does-response nor time course data are available for the effects of TMT on this enzyme. The effects of three dose levels of TMT on ChAT activity in CA1 and the dentate gyrus were determined in Experiment 1 and ChAT activity in these two areas was measured at six time points following exposure to TMT in Experiment 2. Only the highest dose of TMT (6 mg/kg) significantly increased ChAT activity. ChAT activity in the dentate gyrus increased significantly by 3 d after administration and continued to increase until 21 d after exposure. A significant increase was not observed in CA1 until 7 d after exposure to TMT. Asymptotic levels were still reached at d 21. These results indicate a steep dose-response curve for TMT-induced changes in ChAT activity in the hippocampal formation and that this marker of cholinergic activity is more sensitive to perturbation by TMT in the dentate gyrus than Ammon's horn.

acetylcholine

axonal sprouting

choline acetyltransferase

cholinergic

Hippocampus

rat

trimethyltin

Biomedical Sciences

Perinatal Lesioning and Lifelong Effects of the Noradrenergic Neurotoxin 6-Hydroxydopa

Kostrzewa, Richard M.

12 December 2016

6-hydroxydopa (6-OHDOPA) was synthesized with the expectation that it would be able to cross the blood-brain barrier to be enzymatically decarboxylated to 6-hydroxydopamine (6-OHDA), the newly discovered neurotoxin for noradrenergic and dopaminergic neurons. In part, 6-OHDOPA fulfilled these criteria. When administered experimentally to rodents, 6-OHDOPA destroyed peripheral sympathetic noradrenergic nerves and did exert neurotoxicity to noradrenergic nerves in brain—in large part, from its conversion to 6-OHDA. However, the efficacy of 6-OHDOPA was less than that of 6-OHDA; also, 6-OHDOPA was relatively selective for noradrenergic neurons; near-lethal doses of 6-OHDOPA were required to damage dopaminergic nerves; and ultimately, 6-OHDOPA was found to be an agonist at AMPA receptors, thus accounting for more non-specificity. Nevertheless, 6-OHDOPA was found to be a particularly valuable tool in uncovering processes and mechanisms associated with noradrenergic nerve regeneration and sprouting, particularly when administered to perinatal rodents. Also, 6-OHDOPA was a good tool for selective mapping of noradrenergic nerve tracts in brain, since dopaminergic tracts were unaffected and did not interfere with the histofluorescent methodology used for this purpose in the early 1970s. As an experimental research tool, 6-OHDOPA was valuable in a short time-window, but its utility is largely limited because of newer research technologies that provide better means today for nerve tract mapping, and for experimental approaches engaged toward study of processes and mechanisms attending nerve regeneration. AMPA actions of 6-OHDOPA have not been extensively studied, so this avenue may enliven use of 6-OHDOPA in the future.

6-hydroxydopa

6-hydroxydopamine

AMPA

nerve regeneration

nerve sprouting

neuroteratogen

noradrenergic nerves

Biomedical Sciences

Functional Trait Based Community Assembly in a Secondary Tropical Dry Forest (熱帯乾燥地の二次林における機能形質に基づいた群集形成) / 熱帯乾燥地の二次林における機能形質に基づいた群集形成

Bo, Sann

23 March 2017

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第20443号 / 農博第2228号 / 新制||農||1050(附属図書館) / 学位論文||H29||N5064(農学部図書室) / 京都大学大学院農学研究科森林科学専攻 / (主査)教授 神﨑 護, 教授 北島 薫, 教授 大澤 晃 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM

Forest recovery

Human disturbance

Seedling performances

Species distribution

Sprouting ability

Soil properties

Vegetation patterns

610

Thermal treatments for short-term storage of potato (Solanum tuberosum L.)

Ranganna, Byrappa.

January 1996

No description available.

Potatoes -- Sprouting.

Ultraviolet radiation.

Potatoes -- Effect of temperature on.

Application of Microfluidic Technology for Studying the Effects of Fluid Forces and Extracellular Matrix on Angiogenesis and Lymphangiogenesis

Chang, Chia-Wen

January 2020

No description available.

Biomedical Engineering

Chemical Engineering

microfluidics

chemokine

permeability

sprouting

interstitial flow

lymphatic

Compensatory Cortical Sprouting Across the Lifespan of the Rat

Carnes, Benjamin J., Carnes

10 May 2016

No description available.

Biomedical Research

Biology

Neurobiology

Neurosciences

Sprouting

cholinergic

neurons

aging

AD

Entorhinal cortex

Axonale Zielfindung im Hippocampus während der Entwicklung und nach Läsion

Savaskan, Nicolai E.

10 June 2002

Die vorliegende Arbeit behandelte den Einfluss von membran-assoziierten Faktoren im Hippocampus auf das axonale Wachstum, zum einen während der Entwicklung des entorhino-hippocampalen Systems und zum anderen nach Deafferenzierung des adulten Hippocampus. Mit Hilfe des Streifenassays und des Längenauswachsassays wurden zuerst die maturationsabhängigen Eigenschaften von membran-assoziierten Faktoren im Hippocampus getestet. Es zeigte sich, dass entorhinale Axone zwischen ihrem normotypischen Zielgebiet und Kontrollregionen diskrimieren können und bevorzugt auf Membranen ihres Zielgebiets wachsen. Im Folgenden wurden dann Axonen hippocampale Membranen unterschiedlicher Entwicklungsstadien im Streifenassay angeboten. In diesem experimentellen Ansatz wuchsen entorhinale Axone präferenziell auf jenen hippocampalen Membranen, die aus dem Entwicklungsstadium stammen, in den die entorhinalen Fasern in vivo in den Hippocampus einwachsen. Diese Experimente ergaben, dass das in vivo zeitlich genau regulierte Einwachsen entorhinaler Fasern in den Hippocampus von membran-assoziierten Faktoren determiniert ist und ein Zeitfenster für das Vorhandensein dieser Faktoren im Hippocampus existiert. Eines der wesentlichen Charakteristika der Maturation des zentralen Nervensystem ist die Bildung von Myelin und die Myelinisierung von Fasertrakten. Immunozytochemische Analysen mit Myelin-spezifischen Markern ergaben, dass dieses maturationsabhängige Auswachsverhalten zeitlich gut mit der Myelinisierung dieser Hirnregion korreliert. Eine Reihe von in vivo und in vitro Experimenten verschiedener Arbeitsgruppen demonstrierten, dass Myelin starke auswachsinhibitorische Eigenschaften hat, die sogar den Kollaps von Wachstumskolben induzieren können. In Längenauswachsassays zeigte sich, dass Myelin einen starken inhibitorischen Effekt auf das Längenwachstum von entorhinalen Axonen hat. Mit physikalischen Separationstechniken und unter Verwendung des funktionellen Antikörpers gegen inhibitorische Myelinproteine (IN-1) konnte dieser Effekt neutralisiert werden und das neuronale Längenwachstum war wieder vergleichbar zur Kontrollsituation. Untersuchungen im Streifenassay ergaben zusätzlich, dass das wachstumsinhibitorische Myelin und seine Komponenten keine axonalen Lenkungseigenschaften hatte und die gerichtete Zielfindung axonalen Auswachsens nicht beeinflusst. In weiteren Experimenten wurden die membran-assoziierten Faktoren im deafferenzierten Hippocampus untersucht. Dabei zeigte sich, dass nach einer Läsion wachstumsfördernde Faktoren in hippocampalen Membranen vorliegen. Zusätzlich liegen in einem engen Zeitfenster axonale Lenkungsmoleküle vor mit vergleichbarer Attraktivität für entorhinale Axone, wie sie aus entsprechenden Entwicklungsstadien bekannt sind. Die Experimente lassen den Schluss zu, dass im deafferenzierten Hippocampus Faktoren läsionsinduziert werden, und dass diese Faktoren membran-assoziiert sind. Es wird seit langem angenommen, dass das ZNS von adulten Vertebraten in seinem zellulären Zustand determiniert ist und zu keinen grösseren plastischen Veränderungen fähig ist. Gerade nach einer Schädigung von adultem ZNS ist die Regenerationsfähigkeit im Unterschied zu jungen, postnatalen ZNS sehr eingeschränkt. Die beschränkte Regenerationsfähigkeit des adulten ZNS ist wesentlich determiniert durch die Präsenz des auswachsinhibitorischen Myelins. Nichtsdestotrotz gibt es kompensatorisches Sprouting im Hippocampus, die verlorengegangene synaptische Kontakte ersetzen. Die Identifizierung der Faktoren, die das schichten-spezifische Einwachsen aussprossender Axone kontrollieren, trägt wesentlich zum Verständnis dieses Phänomens bei. Weiterhin wird die Aufklärung der zugrundeliegenden molekularen Faktoren für die spezifische Zielerkennung und deren Charakterisierung uns helfen, das Potential und die Limitation der Regeneration im ZNS besser zu verstehen und die Möglichkeit eröffnen, einmal verlorengegangene neuronale Verbindungen durch therapeutische Intervention wieder spezifisch aufzubauen. / In this study, the impact of membrane-associated factors on axonal outgrowth during development and following lesion was examined. We studied the maturation-dependent features of membrane-associated molecules in the hippocampus with the stripe assay for guidance activity and with the outgrowth assay for outgrowth-supporting activity. We could show that entorhinal axons discriminate between their proper target area, the hippocampus, and control regions which do not receive synaptic connections from the entorhinal cortex, and preferred to grow on hippocampal membranes. Further, we examined guidance preferences of entorhinal neurites on hippocampal membranes in different developmental stages. The choice behavior of entorhinal neurites for hippocampal membranes temporally correlates with the ingrowth of the perforant path into the hippocampus and with the stabilization of this brain area in vivo, and further indicate the transient presence of membrane-associated guidance cues in the hippocampus. One of the characteristics of maturational processes in the central nervous system is the developmentally regulated myelination of fiber tracts. Comparison of the stripe assay data with immunohistochemical analysis for MBP and MAG as representative myelin markers revealed a correlation between the changes in axonal choice behavior and increasing myelination. It is known that myelin itself is a strong axonal outgrowth inhibitor and that myelin can also induce growth cone collapse. In outgrowth assays, we could show that myelin has a strong outgrowth inhibitory influence on entorhinal axons which can be neutralized by the monoclonal antibody IN-1. However, in the stripe assay, myelin did not influence the choice behavior of outgrowing axons and this indicates that myelin does not govern information for directed growth. Furthermore, stripe assays were performed with membranes obtained from deafferented hippocampi at various lesion stages. In these experiments, we could show that outgrowth-promoting factors are present in the lesioned hippocampus. Moreover, data from the stripe assay revealed the timely restricted presence of membrane-bound guidance factors which are equally as attractive as neonatal hippocampal membranes. These experiments indicate the lesion-induced expression of outgrowth-promoting factors in the hippocampus, which correlates temporally with the sprouting reaction in vivo. It is suggested that the central nervous system of adult vertebrates is determined in its cellular condition and not capable of structural changes. This is most evident following lesion of adult brain, where the ability for regeneration is highly restricted in comparison to young, postnatal neural tissue. This restricted ability for regeneration in the adult brain is essentially determined by the presence of outgrowth-inhibitory myelin. However, a compensatory sprouting response exists in the adult hippocampus following lesion, which leads to a layer-specific replacement of lost synaptic contacts. The identification of these factors will lead to a deeper understanding of layer-specific axonal sprouting and synaptic replacement. Further, the identification and characterization of the underlying factors will help us to understand the potential and limitations of regeneration in the central nervous system.

Hippocampus

Streifenassay

IgCAM

Wegfindungsmoleküle

Axon guidance

Regeneration

Myelin

Sprouting

hippocampus

axon guidance molecule

regeneration

sprouting

IgCAM

collapse

attraction

myelin

outgrowth-promoting molecules

610 Medizin

33 Medizin

YG 1700

ddc:610

Characterization of α-amylase in wheat and maize

Aljabi, Hanadi Riyad

16 July 2014

No description available.

630

α-amylase activity

Pre-harvest sprouting

Cereals grains

Grain development stages

Food industry

Land- und Forstwirtschaft (PPN621302791)

Effect of salinity on germination and seedling growth of Canola (Brassica napus L.)

Bahizire, Francois B.

03 1900

Thesis (MScAgric (Agronomy)--University of Stellenbosch, 2007. / Soil salinity is a serious constrain to crop production in many countries. In the Western Cape canola production area, large variability in soil properties within the same field is a very common feature. Some of this variability may be ascribed to differences in salinity. These saline patches affected the germination and survival of cereal crops like wheat and may therefore also be a reason for the high variability and generally low canola yields obtained in this area. It will therefore be important to quantify the effect of such saline conditions on the germination and seedling establishment of canola in an effort to improve yields. In this study several experiments were conducted under controlled conditions in either Petri dishes in an incubator or pots in a temperature controlled glasshouse to determine the salinity response of canola. Results of the experiments done in Petri dishes, showed that the germination response of canola (Brassica napus L., cv. Tornado) to increasing levels of salinity is very similar to that of wheat (Triticum aestivum L., cv SST 88). Although canola germinated more rapidly than wheat at a temperature of 20 ºC, the final percentage germination for both crops decreased severely when NaCl induced salinity exceeded levels of an EC of 8 dS m-1, but less severe responses were obtained with NaCl/CaCl2 induced salinity. Under soil conditions an interaction between soil type and salinity level showed that the responses in sandy soil to an increase in salinity from 0 to 8 iv dS m-1 were less severe than in loamy soil and especially when salinity stress was induced by NaCl. Although cultivar Spektrum showed more tolerance to saline conditions during the germination and seedling stages in pot experiments when compared to other cultivars tested, these results will have to be confirmed in field trails where grain yield and quality can be measured.

Dissertations -- Agronomy

Theses -- Agronomy

Dissertations -- Agriculture

Theses -- Agriculture

Canola -- Seedlings

Canola -- Growth

Canola -- Preharvest sprouting

Soil salinization