21 |
QUANTITATIVE AND MOLECULAR ANALYSIS OF HABITUATION AT THE MAIZE r1 LOCUSLindsay, Robert C 01 January 2018 (has links)
Epigenetics is the study of heritable changes in phenotypes that are not the result of changes in DNA sequence. Examples of epigenetic affecters include methylation changes, chromatin modifications, transcription factors, and RNA-based changes. The molecular mechanisms behind epigenetic changes are not fully understood. Canalization is the buffering of gene expression against environmental changes over time, while habituation is semi-stable expression change over time due to selection. This work characterized the molecular changes associated with the kernel color changes of the R-sc:86-17pale allele at the maize red color1 (r1) locus to determine if the changes are epigenetic in nature. The research; 1) quantified the color differences between the progenitor and habituated sublines; 2) Determined that there are not sequence differences between the progenitor and habituated sublines at the 3` end of the Sc||nc1 gene that could account for changes in seed color; 3) and examined the cytosine methylation patterns at the 3` end of the Sc||nc1 gene of the habituated sublines and the progenitor to determine whether there are methylation differences that correspond with the kernel color changes. Quantification of the kernel colors of the R-sc:86-17pale selection sublines showed that there was a statistically significant difference in kernel color. The identical sequence of the R-sc:86 line and the R-sc:86-17pale Lightest and R-sc:86-17pale Darkest sublines at the 3` end of the Sc||nc1 gene is evidence that the kernel color change is not driven by differences in sequence within the r1 gene. The methylation data suggests that some methylation differences in the R-sc:86-17pale Lightest and R-sc:86-17pale Darkest sublines are present, and suggests that the molecular basis of the kernel color is epigenetic in nature.
|
22 |
CTCF Contributes to the Regulation of the Ribosomal DNA in Drosophila melanogasterGuerrero, Paola 2011 December 1900 (has links)
The 35S rDNA gene clusters on the X and Y chromosomes of Drosophila melanogaster are repeats of approximately 150 to 225 copies. Each are transcribed as a single unit by RNA Polymerase I and modified into the 18S, 5.8S, 2S and 28S ribosomal rRNAs. Reduction in the array copy number results in a bobbed phenotype, characterized by truncated bristles and herniations of abdominal cuticle, due to a decrease in protein production. In some copies within the arrays, R1 and R2 retrotransposable elements are inserted in a conserved region of the 28S gene which represses the transcription of a functional rRNA. Inserted arrays are transcribed at very low levels, but it is not clear how they are identified for repression. Similarly, a subset of uninserted arrays are silenced, and the epigenetic mechanism controlling how this decision is made it is also unknown. The CCCTC binding factor (CTCF) is a boundary element binding protein and a transcriptional regulator found in the nucleolus of differentiated mammalian cells, whose localization requires poly (ADP-ribosyl)ation. We investigated whether CTCF might be involved in the regulation of rDNA expression in Drosophila. Our data show that CTCF is found at the nucleolus of both polytene and diploid nuclei, and we have identified binding sites in the 28S gene, R1 and R2 elements by a bioinformatic approach. ChIP data indicate that CTCF binds only to the site in the R1 retrotransposon. Reduction of CTCF or members of the poly(ADP-ribosyl)ation pathway by RNAi in S2 cells causes an increase in the amount of 35S rDNA gene, R1, and R2 transcripts. In flies, CTCF and PARG mutant alleles show disrupted nucleoli and increased rRNA transcripts. Mutant alleles of CTCF suppress variegation of a P-element inserted in a 35S rDNA array, but not of elements inserted elsewhere in the genome. Consistent with a role for CTCF in rRNA regulation, we found that during oogenesis CTCF is recruited to the nucleolus of nurse cells at early stages when the demand of ribosomes is low and it leaves this compartment in later stages when the cell increases rRNA production. We conclude from these studies that CTCF acts as a regulation of rDNA transcription by RNA polymerase I.
|
23 |
The Role of IgM and Complement in Antibody ResponsesRutemark, Christian January 2011 (has links)
An intact complement system including the complement receptors 1 and 2 (CR1/2) is crucial for the generation of a normal antibody response in animals and humans. Moreover, activation of the classical pathway is thought to be important since deficiency in complement components C1q, C2, C4 or C3 lead to impaired antibody responses. The classical pathway is mainly initiated by antibodies bound to their antigen. It is unclear how classical pathway activation can be crucial for primary antibody responses since the levels of specific antibodies are very low in naïve animals. It has been hypothesized that natural IgM, with high enough affinity, can initiate the classical pathway after immunization. To test this, we generated the knock-in mouse strain Cμ13, producing IgM unable to activate complement. Surprisingly, the antibody response against SRBC and KLH in Cµ13 mice was normal. Thus, the importance of classical pathway activation and natural IgM in antibody responses is not dependent on the ability of IgM to activate complement. SIGN-R1, SAP and CRP are other known activators of the classical pathway, but mice lacking these also had normal antibody responses. Complement activation leads to the generation of C3 split products which are ligands for CR1/2. In mice, CR1/2 are expressed on B cells and follicular dendritic cells (FDC), but it is unclear on which cell-type expression of CR1/2 is needed for the generation of a normal antibody response. Some reports argue that increased antigen retention by CR1/2+ FDC would increase the effective antigen concentration, giving more effective B-cell stimulation. In contrast, several mechanisms involving CR1/2 on B cells are suggested. First, marginal zone B cells could transport complement-coated antigen or IC via CR1/2 into the follicle. Second, different ways of co-crosslinking the B-cell receptor with CR1/2, lowering the threshold for B-cell activation, have been proposed. Finally, CR1/2 on B cells are shown in vitro to facilitate endocytosis and thereby presentation of antigen to T cells. We show that abrogated antibody responses in mice lacking CR1/2 are not due to lack of CR1/2-mediated antigen presentation to T cells. Chimeric mice with CR1/2 expression on both B cells and FDC, on neither B cells nor FDC, or on either B cells or FDC, were generated. The antibody response against SRBC was completely dependent of CR1/2-expression on FDC. However, when this requirement was fulfilled, B cells without expression of CR1/2 were equally efficient antibody producers as wildtype B cells. Antigen-specific IgM together with its antigen can enhance the antibody response to that antigen and CR1/2-expression is crucial for the enhancement. We show that the response to IgM in complex with SRBC is dependent on CR1/2 expression on both B cells and FDC.
|
24 |
Relatedness, Industrial Branching and Technological Cohesion in US Metropolitan AreasEssletzbichler, Jürgen January 2015 (has links) (PDF)
Relatedness, industrial branching and technological cohesion in US metropolitan areas, Regional Studies. Work by evolutionary economic geographers on the role of industry relatedness for regional economic development is extended into a number of methodological and empirical directions. First, relatedness is measured as the intensity of inputoutput linkages between industries. Second, this measure is employed to examine industry evolution in 360 US metropolitan areas. Third, an employment-weighted measure of metropolitan technological cohesion is developed. The results confirm that technological relatedness is positively related to metropolitan industry portfolio membership and industry entry and negatively related to industry exit. The decomposition of technological cohesion indicates that the selection of related incumbent industries complements industry entry and exit as the main drivers of change in metropolitan technological cohesion.
|
25 |
Návrh závodního vozidla kategorie R1 / Design of R1-Class Racing CarBureš, David January 2020 (has links)
The goal of this thesis is to create a conceptual design of a rally car in Ra5 (former R1) category. The thesis contains interpretation of regulations, overview of former cars in this category and requirements for such vehicle. The thesis describes choice of vehicle and description of modifications, including specific components. The thesis also describes construction of several designs of rollcage, which were mutually compared, and their homologation tests. The thesis also determines small series price of such vehicle.
|
26 |
Corn grain yield response to sulfur fertilization in IndianaDiana Salguero (11211201) 01 September 2021 (has links)
Reduction in sulfur deposition from power plant
emissions has resulted in lower amounts of soil sulfur and, perhaps, in
inadequate sulfur availability for corn. The objective of this study was to
determine if corn (<i>Zea mays</i> L.) grain yield was responsive to S
fertilization in Indiana and what soil and cropping system factors contributed
to the likelihood of a response. Field scale experiments were conducted at 28
sites from 2017 to 2020, the majority in corn-soybean (<i>Glycine max</i> (L.)
Merr) rotation. In-season measurements included soil sulfate-S concentration
and soil texture from 0 to 60 cm in 20 cm increments, plant nutrient
concentration in the whole plant at V3-V7, in the earleaf, and in the grain.
Additional measurements were 1,000 kernel dry weight, total kernel rows per
ear, and kernels per row. Sulfur treatment rates ranged from 0 to 34 kg S ha<sup>‑1</sup>
as ammonium thiosulfate, and were applied as starter, sidedress, and both
combined. Fertilizer S increased grain yield by 0.2 to 3.0 Mg ha<sup>-1</sup>
at 10 of 28 Indiana site-years, approximately a 36% frequency of response. When
a response to S fertilizer occurred, the lowest sidedress rate examined in that
site-year, which ranged from 8 to 17 kg S ha<sup>-1</sup>,<sup> </sup>was
enough to maximize grain yield. On soils with 26 to 31 g kg<sup>-1</sup> OM, S
fertilization increased yield 0.2 to 0.3 Mg ha<sup>-1</sup> at 2 of 10
site-years. Response to S fertilization at 8 of 10 site-years with soils with
lower OM, 10 to 25 g kg<sup>-1</sup>, had higher yield increases ranging from
0.7 to 3.0 Mg ha<sup>-1</sup>. Grain yield responses occurred in both coarse-
and fine-textured soils and were consistent and large at 2 sites. Sulfate-S
concentration in the soil and S concentration in the whole plant (V4-V7) were
not good indicators of response to S fertilization. For the majority of the site-years
where grain yield increased with S fertilization, the grain S concentration,
earleaf S concentration, and earleaf N:S were respectively <0.9 g kg<sup>-1</sup>,
<1.8 g kg<sup>-1</sup>, and >15:1 without S treatment. These parameters
improved with the addition of S but some site-years with these values did not
have a yield response. These earleaf S and N:S ‘critical values’ may serve as
reference for potentially S responsive sites, but more observations are
necessary to validate these critical levels. Sites with higher basal values
(without fertilizer treatment) for earleaf and grain S concentration and lower
earleaf N:S still showed increased tissue S concentration upon S fertilizer
application, albeit with no increase in grain yield. We encourage farmers to
consider S fertilization at rates ranging from 8 to 17 kg S ha<sup>-1</sup>
applied at sidedress. this recommendation for fields showing S deficiency
symptoms or where R1 earleaf S concentration and N:S are below 1.8 g kg<sup>-1</sup>
and above 15:1, respectively.
|
27 |
Étude de la fonction anti-apoptotique de la sous-unité R1 de la ribonucléotide réductase des virus de l’herpès simplexDufour, Florent 08 1900 (has links)
L’élimination des cellules infectées par apoptose constitue un mécanisme de défense antivirale. Les virus de l’herpès simplex (HSV) de type 1 et 2 encodent des facteurs qui inhibent l’apoptose induite par la réponse antivirale. La sous-unité R1 de la ribonucléotide réductase d’HSV-2 (ICP10) possède une fonction anti-apoptotique qui protège les cellules épithéliales de l’apoptose induite par les récepteurs de mort en agissant en amont ou au niveau de l’activation de la procaspase-8. Puisqu’une infection avec un mutant HSV-1 déficient pour la R1 diminue la résistance des cellules infectées vis à vis du TNFα, il a été suggéré que la R1 d’HSV-1 (ICP6) pourrait posséder une fonction anti-apoptotique. Le but principal de cette thèse est d’étudier le mécanisme et le potentiel de la fonction anti-apoptotique de la R1 d’HSV-1 et de la R1 d'HSV-2.
Dans une première étude, nous avons investigué le mécanisme de la fonction anti-apoptotique de la R1 d’HSV en utilisant le TNFα et le FasL, deux inducteurs des récepteurs de mort impliqués dans la réponse immune anti-HSV. Cette étude a permis d’obtenir trois principaux résultats concernant la fonction anti-apoptotique de la R1 d’HSV. Premièrement, la R1 d’HSV-1 inhibe l’apoptose induite par le TNFα et par le FasL aussi efficacement que la R1 d’HSV-2. Deuxièmement, la R1 d’HSV-1 est essentielle à l’inhibition de l’apoptose induite par le FasL. Troisièmement, la R1 d’HSV interagit constitutivement avec la procaspase-8 d’une manière qui inhibe la dimérisation et donc l’activation de la caspase-8. Ces résultats suggèrent qu’en plus d’inhiber l’apoptose induite par les récepteurs de mort la R1 d’HSV peut prévenir l’activation de la caspase-8 induite par d’autres stimuli pro-apoptotiques. Les ARN double-brins (ARNdb) constituant un intermédiaire de la transcription du génome des HSV et activant l’apoptose par une voie dépendante de la caspase-8, nous avons testé dans une seconde étude l’impact de la R1 d’HSV sur l’apoptose induite par l’acide polyriboinosinique : polyribocytidylique (poly(I:C)), un analogue synthétique des ARNdb. Ces travaux ont montré qu’une infection avec les HSV protège les cellules épithéliales de l’apoptose induite par le poly(I:C). La R1 d’HSV-1 joue un rôle majeur dans l’inhibition de l’activation de la caspase-8 induite par le poly(I:C). La R1 d’HSV interagit non seulement avec la procaspase-8 mais aussi avec RIP1 (receptor interacting protein 1). En interagissant avec RIP1, la R1 d’HSV-2 inhibe l’interaction entre RIP1 et TRIF (Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β), l’adaptateur du Toll-like receptor 3 qui est un détecteur d’ARNdb , laquelle est essentielle pour signaler l’apoptose induite par le poly(I:C) extracellulaire et la surexpression de TRIF.
Ces travaux démontrent la capacité de la R1 d’HSV à inhiber l’apoptose induite par divers stimuli et ils ont permis de déterminer le mécanisme de l’activité anti-apoptotique de la R1 d’HSV. Très tôt durant l’infection, cFLIP, un inhibiteur cellulaire de la caspase-8, est dégradé alors que la R1 d’HSV s’accumule de manière concomitante. En interagissant avec la procapsase-8 et RIP1, la R1 d’HSV se comporte comme un inhibiteur viral de l’activation de la procaspase-8 inhibant l’apoptose induite par les récepteurs de mort et les détecteurs aux ARNdb. / Elimination of infected cells by apoptosis constitutes an ancestral mechanism of host defense against viral infection. Herpes simplex viruses (HSVs) encode several viral factors to counteract the apoptotic antiviral response. Among them, the R1 subunit of HSV type-2 ribonucleotide reductase (HSV-2 R1, also named ICP10), protects cells by interrupting death receptor-mediated signaling at, or upstream of, caspase-8 activation. Since protection against tumor necrosis factor alpha (TNFα)-induced apoptosis is decreased un cells infected with an HSV type-1 R1 null mutant, it has been proposed that HSV-1 R1 (ICP6) could also possess an antiapoptotic activity. The fundamental goal of this thesis is to better understand the mechanism and the potential of the HSV R1s antiapoptotic activity.
In a first study, we investigated the mechanism of the antiapoptotic activity of HSV R1s by using TNFα and Fas ligand (FasL), two death-receptor inducers involved in anti-HSVs immune response. From this work, we report three main findings on the antiapoptotic activity of HSV R1s. First, HSV-1 R1 like HSV-2 R1 has the ability to protect cells against TNFα- and FasL-induced apoptosis. Second, HSV-1 R1 contributes in protecting infected cells against FasL. Third, HSV R1s and procaspase-8 interact in a way that inhibits the dimerization/activation of caspase-8. These results suggest that in addition to counteracting death receptor-induced apoptosis, HSV R1s could inhibit apoptosis induced by other signals that trigger caspase-8 activation during HSV infection. Double-stranded RNA (dsRNA) are viral intermediates notably produced by HSVs and have been shown to induce apoptosis via caspase-8 activation. We tested in a second study whether HSV R1s have the ability to counteract apoptosis triggered by polyriboinosinic : polyribocytidylic acid (poly(I:C)), a synthetic analog of dsRNA that triggers caspase-8 activation. We showed that HSVs infection protect epithelial cells from apoptosis induced by poly(I:C). We established that HSV-1 R1 is essential for the protection of HSV-1-infected cells against poly(I:C)-induced caspase-8 activation. HSV R1s interact not only with procaspase-8 but also with the receptor interacting protein 1 (RIP1). The interaction between RIP1 and HSV-2 R1 inhibits the binding of RIP1 to the Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β (TRIF), the adaptor of Toll-like receptor 3 that is an extracellular dsRNA sensor, which is required to activate caspase-8 following extracellular poly(I:C) stimulation and TRIF overexpression. Thus, HSV R1s have the ability to inhibit poly(I:C)-induced apoptosis at several levels by preventing caspase-8 dimerization/activation and TRIF RIP1 interaction.
This work sheds light on the ability of HSV R1s to manipulate apoptosis. Early during the lytic cycle, protein levels of the cellular inhibitors of caspase-8 as cFLIP drop but HSV R1s accumulate concomitantly and act as a viral inhibitor of apoptosis by binding to procaspase-8 and RIP1 in a way that impairs caspase-8 activation by death-receptors and dsRNA detectors stimulation.
|
28 |
Étude de la fonction anti-apoptotique de la sous-unité R1 de la ribonucléotide réductase des virus de l’herpès simplexDufour, Florent 08 1900 (has links)
L’élimination des cellules infectées par apoptose constitue un mécanisme de défense antivirale. Les virus de l’herpès simplex (HSV) de type 1 et 2 encodent des facteurs qui inhibent l’apoptose induite par la réponse antivirale. La sous-unité R1 de la ribonucléotide réductase d’HSV-2 (ICP10) possède une fonction anti-apoptotique qui protège les cellules épithéliales de l’apoptose induite par les récepteurs de mort en agissant en amont ou au niveau de l’activation de la procaspase-8. Puisqu’une infection avec un mutant HSV-1 déficient pour la R1 diminue la résistance des cellules infectées vis à vis du TNFα, il a été suggéré que la R1 d’HSV-1 (ICP6) pourrait posséder une fonction anti-apoptotique. Le but principal de cette thèse est d’étudier le mécanisme et le potentiel de la fonction anti-apoptotique de la R1 d’HSV-1 et de la R1 d'HSV-2.
Dans une première étude, nous avons investigué le mécanisme de la fonction anti-apoptotique de la R1 d’HSV en utilisant le TNFα et le FasL, deux inducteurs des récepteurs de mort impliqués dans la réponse immune anti-HSV. Cette étude a permis d’obtenir trois principaux résultats concernant la fonction anti-apoptotique de la R1 d’HSV. Premièrement, la R1 d’HSV-1 inhibe l’apoptose induite par le TNFα et par le FasL aussi efficacement que la R1 d’HSV-2. Deuxièmement, la R1 d’HSV-1 est essentielle à l’inhibition de l’apoptose induite par le FasL. Troisièmement, la R1 d’HSV interagit constitutivement avec la procaspase-8 d’une manière qui inhibe la dimérisation et donc l’activation de la caspase-8. Ces résultats suggèrent qu’en plus d’inhiber l’apoptose induite par les récepteurs de mort la R1 d’HSV peut prévenir l’activation de la caspase-8 induite par d’autres stimuli pro-apoptotiques. Les ARN double-brins (ARNdb) constituant un intermédiaire de la transcription du génome des HSV et activant l’apoptose par une voie dépendante de la caspase-8, nous avons testé dans une seconde étude l’impact de la R1 d’HSV sur l’apoptose induite par l’acide polyriboinosinique : polyribocytidylique (poly(I:C)), un analogue synthétique des ARNdb. Ces travaux ont montré qu’une infection avec les HSV protège les cellules épithéliales de l’apoptose induite par le poly(I:C). La R1 d’HSV-1 joue un rôle majeur dans l’inhibition de l’activation de la caspase-8 induite par le poly(I:C). La R1 d’HSV interagit non seulement avec la procaspase-8 mais aussi avec RIP1 (receptor interacting protein 1). En interagissant avec RIP1, la R1 d’HSV-2 inhibe l’interaction entre RIP1 et TRIF (Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β), l’adaptateur du Toll-like receptor 3 qui est un détecteur d’ARNdb , laquelle est essentielle pour signaler l’apoptose induite par le poly(I:C) extracellulaire et la surexpression de TRIF.
Ces travaux démontrent la capacité de la R1 d’HSV à inhiber l’apoptose induite par divers stimuli et ils ont permis de déterminer le mécanisme de l’activité anti-apoptotique de la R1 d’HSV. Très tôt durant l’infection, cFLIP, un inhibiteur cellulaire de la caspase-8, est dégradé alors que la R1 d’HSV s’accumule de manière concomitante. En interagissant avec la procapsase-8 et RIP1, la R1 d’HSV se comporte comme un inhibiteur viral de l’activation de la procaspase-8 inhibant l’apoptose induite par les récepteurs de mort et les détecteurs aux ARNdb. / Elimination of infected cells by apoptosis constitutes an ancestral mechanism of host defense against viral infection. Herpes simplex viruses (HSVs) encode several viral factors to counteract the apoptotic antiviral response. Among them, the R1 subunit of HSV type-2 ribonucleotide reductase (HSV-2 R1, also named ICP10), protects cells by interrupting death receptor-mediated signaling at, or upstream of, caspase-8 activation. Since protection against tumor necrosis factor alpha (TNFα)-induced apoptosis is decreased un cells infected with an HSV type-1 R1 null mutant, it has been proposed that HSV-1 R1 (ICP6) could also possess an antiapoptotic activity. The fundamental goal of this thesis is to better understand the mechanism and the potential of the HSV R1s antiapoptotic activity.
In a first study, we investigated the mechanism of the antiapoptotic activity of HSV R1s by using TNFα and Fas ligand (FasL), two death-receptor inducers involved in anti-HSVs immune response. From this work, we report three main findings on the antiapoptotic activity of HSV R1s. First, HSV-1 R1 like HSV-2 R1 has the ability to protect cells against TNFα- and FasL-induced apoptosis. Second, HSV-1 R1 contributes in protecting infected cells against FasL. Third, HSV R1s and procaspase-8 interact in a way that inhibits the dimerization/activation of caspase-8. These results suggest that in addition to counteracting death receptor-induced apoptosis, HSV R1s could inhibit apoptosis induced by other signals that trigger caspase-8 activation during HSV infection. Double-stranded RNA (dsRNA) are viral intermediates notably produced by HSVs and have been shown to induce apoptosis via caspase-8 activation. We tested in a second study whether HSV R1s have the ability to counteract apoptosis triggered by polyriboinosinic : polyribocytidylic acid (poly(I:C)), a synthetic analog of dsRNA that triggers caspase-8 activation. We showed that HSVs infection protect epithelial cells from apoptosis induced by poly(I:C). We established that HSV-1 R1 is essential for the protection of HSV-1-infected cells against poly(I:C)-induced caspase-8 activation. HSV R1s interact not only with procaspase-8 but also with the receptor interacting protein 1 (RIP1). The interaction between RIP1 and HSV-2 R1 inhibits the binding of RIP1 to the Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β (TRIF), the adaptor of Toll-like receptor 3 that is an extracellular dsRNA sensor, which is required to activate caspase-8 following extracellular poly(I:C) stimulation and TRIF overexpression. Thus, HSV R1s have the ability to inhibit poly(I:C)-induced apoptosis at several levels by preventing caspase-8 dimerization/activation and TRIF RIP1 interaction.
This work sheds light on the ability of HSV R1s to manipulate apoptosis. Early during the lytic cycle, protein levels of the cellular inhibitors of caspase-8 as cFLIP drop but HSV R1s accumulate concomitantly and act as a viral inhibitor of apoptosis by binding to procaspase-8 and RIP1 in a way that impairs caspase-8 activation by death-receptors and dsRNA detectors stimulation.
|
29 |
Source versus Residence. A comparison from a New Economic Geography perspectiveCommendatore, Pasquale, Kubin, Ingrid January 2007 (has links) (PDF)
Recently, issues of international taxation have also been analysed from a New Economic Geography perspective. These discussions show that agglomerative forces play a non negligible role. In the paper, we introduce explicitly taxation into a Footloose Capital Model and compare implications of taxation according to the residence principle and the source principle from a New Economic Geography perspective. We confirm that agglomerative effects change the results substantially compared to the standard analysis and that the two taxation principles have different implications for industry agglomeration. (author's abstract) / Series: Discussion Papers SFB International Tax Coordination
|
30 |
Unterschiedliche Wirkungen der TNF-alpha-Rezeptoren auf De- und Regeneration peripherer NervenEine Studie an TNF-alpha-Rezeptor-Knockoutmäusen in zwei verschiedenen Tiermodellen für Nervenläsionen / Different effects of TNF-alpha-receptors on de- and regeneration of the peripheral nerveA study in TNF-alpha-receptor-knockout-mice in two different models of nerve injuryStallforth, Sabine January 2007 (has links) (PDF)
Noch immer ist die Behandlung von Neuropathien mit den gängigen therapeutischen Mitteln für viele Patienten sehr unbefriedigend. Als erfolgsversprechender therapeutischer Ansatz werden zur Zeit Wege erforscht, welche direkt in die molekularen Entstehungsmechanismen pathologischer Veränderungen und regenerationsfördernder Mechanismen eingreifen, um dadurch eine Heilung von Nervenschäden zu ermöglichen. Bisher sind die Erkenntnisse über diese Mechanismen nicht vollständig genug, um daraus eine sichere Behandlungsmöglichkeit abzuleiten. Wegweisende Erkenntnisse deuten sich allerdings durch Studien von unterschiedlichen Vertretern des Zytokinnetzwerkes an - darunter auch TNF-alpha - welche als molekulare Ursache neuropathischer Veränderungen diskutiert werden. In dieser Studie wurde an Knockoutmäusen der Einfluss des jeweiligen TNF-alpha-Rezeptors auf morphologische Veränderungen nach CCI (Chronic constriction injury) und Crush-Verletzung des N. ischiadicus untersucht. Nach 3,7,15 und 36 Tagen (CCI) bzw. 3,7 und 28 Tagen (Crush) wurden in Methylenblau gefärbten Semidünnschnitten intakte und degenerierte Nervenfasern, Makrophagen, Angioproliferation, Ödembildung udn Veränderung des Anteils nicht neuronaler Zellen lichtmikroskopisch beurteilt. Zusätzlich wurden Mac-1+ Makrophagen immunzytochemisch erfasst. Die Ergebnisse zeigten in beiden Modellen und bei beiden Knockouttypen eine starke axonale Schädigung, die von einer großen endoneuroalen Makrophagenansammlung begleitet war. Bei TNF-R1-/- Mäusen war eine stärkere und verlängerte Degeneration mit entsprechend höheren Makrophagenzahlen sichtbar. In den Immunzytochemischen Färbungen wiesen die TNF-R1-/- Mäuse hingegen den geringsten Makropahgenanteil auf.Trotz der starken Schädigung war die anschließende Regeneration im Gegensatz zu WT und TNF-R2-/- Mäusen besser. Die Ödembildung war bei den TNF-R2-/- nach CCI besonders stark ausgeprägt und von einer schlechten Regeneration gefolgt. Während die gefundenen Daten auf eine Beteiligung beider Rezeptoren während degenerativer Prozesse hindeuten, scheint insbesondere TNF-R2 regenerationsfördernde Effekte zu vermitteln. / Current Treatment of neuropathic disorders is still dissatisfactory for many patients. A promising approach is the investigation of agents that directly interfere with molecular development of pathologic changes and regeneration. Up to now, consolidated findings of the underlying mechanisms are not yet sufficent to allow therapeutic intervention. Pathbreaking findings come from studies investigating different agents of the cytokine network - as e.g. TNF-alpha - that are discussed as molecular cause of neuropathic changes. This study investigated the influence of both TNF-alpha-receptors on morphologic changes after CCI (chronic constriction injury) and crush-injury of the sciatic nerve of TNF-R-knockoutmice. After 3,7,15 and 36 days (CCI), and 3,7 and 28 respectively (Crush),intact and degenerating nerve fibers, macrophages, angioproliferation, development of edema and changes in the amount of non-neuronal cells were acquired by light microscopy of toluidin-stained semithin sections. Additionally Mac-1+ macrophages were acquired via immuncytochemically stained sections. The results showed strong axonal damage in both knockout-types accompanied by large amounts of endoneurial macrophages. TNF-R1-/-mice showed a longer degeneration phase including respectively higher amounts of macrophages. In contrast the TNF-R1-/-mice revealed the fewest amount of macrophages in immunocytochemical sections. Despite the strong damage better nerve regeneration was observed compared to WT and TNF-R2-/-mice. Formation of edema was pronounced in TNF-R2-/- after CCI and followed by poorly regeneration. Whereas these findings point to a participation of both receptors in degeneration, TNF-R2 seems to support regeneration.
|
Page generated in 0.0181 seconds