Ischemia-induced inflammation is increased and satellite-cell activation is decreased in TNFR2/P75 knockout hindlimb ischemia model

Rahimi, Layla Marie

22 January 2016

OBJECTIVE: Tumor necrosis factor-alpha (TNF-α) is a multifunctional proinflammatory cytokine that plays a critical role in mediating inflammatory and immunological responses. TNF-α has been shown to elicit both beneficial and detrimental biological effects by acting through its two receptors, TNFR1/p55 and TNFR2/p75. Previous studies from this laboratory have shown that TNF-TNFR2/p75 signaling plays a critical role in ischemia-induced neovascularization in muscle and heart tissues. However, the role of TNF-TNFR2/p75 signaling in ischemia induced inflammation and muscle regeneration remains to be characterized. METHODS: To evaluate ischemia induced inflammation responses, young wild type (WT) and young TNFR2/p75 knockout (p75KO) mice were subjected to unilateral hind limb ischemia (HLI) surgery. Operated hind limb tissue samples were collected at 1, 3, 7, and 10 days post-HLI surgery and studied for neutrophil (myeloperoxidase-1 positive cells) and macrophage (F4/80 positive cells) infiltration as well as satellite-cell activation (neural cell adhesion molecule positive cells) at each time point. To determine possible synergistically negative roles of tissue aging and the absence of TNFR2/p75 in either the tissue or bone marrow (BM), two chimeric BM transplantation (BMT) models were generated where young Green Fluorescent Protein (GFP) positive (+) p75KO and WT BM-derived cells were transplanted into adult p75KO mice. HLI surgery was performed one month post-BMT, after confirming complete engraftment of the recipient BM with GFP donor cells. Operated hind limb tissue samples were evaluated up to 28 days post-surgery to examine proliferation and apoptosis of BM-derived cells in ischemic tissue. RESULTS: Ischemia induced significant and long-lasting inflammation associated with a considerable decrease in satellite-cell activation in p75KO muscle tissue 1-10 days post-HLI surgery. For the BMT studies, in adult p75KO with the WT-BMT, proliferative (Ki67+) cells were detected only by day 28 and were exclusively GFP (+), suggesting delayed contribution of young WT-BM cell to adult p75KO ischemic tissue recovery. No GFP (+) young p75KO BM cells survived in adult p75KO tissue. CONCLUSION: The data demonstrate that: (1) ischemia-induced recovery in skeletal muscle tissue is impaired in young p75KO mice; (2) inflammatory responses are significantly increased and long-lasting in p75KO mice; (3) in the absence of TNFR2/p75 signaling, satellite-cell activation is affected in p75KO mice; (4) during post-ischemic recovery, tissue aging combined with decreased/absent TNFR2/p75 signaling may have synergistically negative roles on survival and proliferation in the damaged tissue.

Biology

Inflammation

Signaling

TNF-TNFR2/p75

Satellite cells

Functional analysis on the interactions of the human immunodeficiency virus type 1 integrase with its cofactors that regulate viral replication

Zheng, Yingfeng

03 1900

Like all viruses, the replication of HIV-1 relies heavily on host proteins due to its limited genome products. HIV-1 integrase (IN) catalyzes the integration of viral DNA into host genome and also impacts other steps of viral replication cycle, all of which are assisted by various cellular proteins. Among them, LEDGF/p75 acts as the IN-to-chromatin tethering factor. However, whether other cellular cofactors also participate in this process still remains elusive. To gain insight into the mechanism of action of HIV-1 IN during viral integration, we used a previously described IN/yeast lethality system and our results revealed that the HIV-1 IN-induced yeast lethality absolutely required its chromatin binding ability. Since there is no yeast homolog of LEDGF/p75, it raises the possibility that IN may recruit other cellular cofactors for its chromatin targeting. Consistently, further analysis in mammalian cells indicated that HIV-1 IN was able to mediate chromatin binding independent of IN-LEDGF/p75 interaction and that HIV-1 fitness relied more on chromatin binding than LEDGF/p75 binding of IN. These data greatly enrich our current knowledge on the dynamic interplay within the ternary complex IN/LEDGF/chromatin. HIV-1 exploits multiple cellular cofactors not only to facilitate viral replication, but also to evade the host defense system in favor of the virus. IN is known to be an unstable protein, degraded by the host ubiquitin-proteasome pathway. To investigate how IN avoids the host degradation machinery in the context of viral infection, we showed that IN interacted with host protein Ku70 and protected itself from the Lys48-linked polyubiquitination proteasomal pathway. More importantly, Ku70 was shown to be incorporated into the progeny virus in an IN-dependent manner, and both cell- and virus- associated Ku70 were essential for HIV-1 replication. Finally, the data demonstrated that the interactions between HIV-1 IN and host cofactors can be regulated through its SUMO-interacting motifs (SIMs). Three putative SIMs (72VILV75; 200IVDI203 and 257IKII260) in IN were examined and shown to be essential for IN-LEDGF/p75 but not IN-Ku70 interaction. In summary, this study advances our knowledge of the interaction network between IN and its cofactors, which would have important implications for the design of anti-HIV drugs.

HIV-1 integrase

protein-protein interaction

LEDGF/p75

Ku70

Functional analysis on the interactions of the human immunodeficiency virus type 1 integrase with its cofactors that regulate viral replication

Zheng, Yingfeng

03 1900

Like all viruses, the replication of HIV-1 relies heavily on host proteins due to its limited genome products. HIV-1 integrase (IN) catalyzes the integration of viral DNA into host genome and also impacts other steps of viral replication cycle, all of which are assisted by various cellular proteins. Among them, LEDGF/p75 acts as the IN-to-chromatin tethering factor. However, whether other cellular cofactors also participate in this process still remains elusive. To gain insight into the mechanism of action of HIV-1 IN during viral integration, we used a previously described IN/yeast lethality system and our results revealed that the HIV-1 IN-induced yeast lethality absolutely required its chromatin binding ability. Since there is no yeast homolog of LEDGF/p75, it raises the possibility that IN may recruit other cellular cofactors for its chromatin targeting. Consistently, further analysis in mammalian cells indicated that HIV-1 IN was able to mediate chromatin binding independent of IN-LEDGF/p75 interaction and that HIV-1 fitness relied more on chromatin binding than LEDGF/p75 binding of IN. These data greatly enrich our current knowledge on the dynamic interplay within the ternary complex IN/LEDGF/chromatin. HIV-1 exploits multiple cellular cofactors not only to facilitate viral replication, but also to evade the host defense system in favor of the virus. IN is known to be an unstable protein, degraded by the host ubiquitin-proteasome pathway. To investigate how IN avoids the host degradation machinery in the context of viral infection, we showed that IN interacted with host protein Ku70 and protected itself from the Lys48-linked polyubiquitination proteasomal pathway. More importantly, Ku70 was shown to be incorporated into the progeny virus in an IN-dependent manner, and both cell- and virus- associated Ku70 were essential for HIV-1 replication. Finally, the data demonstrated that the interactions between HIV-1 IN and host cofactors can be regulated through its SUMO-interacting motifs (SIMs). Three putative SIMs (72VILV75; 200IVDI203 and 257IKII260) in IN were examined and shown to be essential for IN-LEDGF/p75 but not IN-Ku70 interaction. In summary, this study advances our knowledge of the interaction network between IN and its cofactors, which would have important implications for the design of anti-HIV drugs.

HIV-1 integrase

protein-protein interaction

LEDGF/p75

Ku70

Activités multiples des inhibiteurs allostériques de l’interaction entre l’Intégrase du VIH-1 et son cofacteur LEDGF/p75 / Multiple activities of allosteric inhibitors of the interaction between HIV-1 Integrase and its cofactor LEDGF/p75

Bonnard, Damien

27 September 2017

VIH-1, l’agent étiologique du Syndrome de l’Immunodéficience Acquise, est un rétrovirus qui infecte les cellules immunitaires et détourne leur machinerie cellulaire pour se répliquer rapidement. Lors de l’infection, le génome ARN est rétrotranscrit en ADN par la transcriptase inverse virale (RT), puis l’insertion du génome proviral dans l’ADN de la cellule hôte est une étape obligatoire du cycle viral catalysée par l’enzyme virale Intégrase (IN). L’interaction de l’IN avec son cofacteur essentiel, la protéine nucléaire LEDGF/p75, dirige l’intégration à l’intérieur de gènes dans des régions fortement exprimées de la chromatine, ce qui permet la production efficace de nouveaux virions. Les Inhibiteurs Allostériques Intégrase-LEDGF (INLAIs) sont une nouvelle classe de molécules antirétrovirales se liant à l’IN au site de liaison de LEDGF/p75. Conçus pour inhiber compétitivement l’interaction protéine-protéine IN-LEDGF/p75, ils inhibent également les activités enzymatiques de l’Intégrase et augmentent son niveau de multimérisation.Nous avons étudié plusieurs nouvelles séries d’INLAIs de la société Mutabilis, et avons pu démontrer que ces molécules inhibent l’intégration, mais ont aussi un effet antirétroviral plus puissant et indépendant de LEDGF/p75 post-intégration au cours de la maturation des virions, qui conduit à la production de virus non infectieux, ayant une morphologie excentrique caractérisée par un défaut d’encapsidation du génome viral. Lors de l’infection de cellules par ces virus, le cycle viral s’arrête à l’étape de rétrotranscription du génome viral. Nous avons montré que ces virions contiennent pourtant un génome viral stable et fonctionnel, une RT active et l’ARNtLys3 qui sert d’amorce à la rétrotranscription, et ont également conservé leur immunoréactivité pour les lymphocytes B et T. En évaluant l’impact du polymorphisme de l’IN au voisinage du site de liaison, nous avons identifié le variant polymorphe Ala125, pour lequel l’INLAI MUT-A perd concomitamment son effet sur la maturation des virions et sur la multimérisation de l’IN, tandis qu’il inhibe aussi bien l’intégration et l’interaction IN-LEDGF, prouvant que l’effet tardif des INLAIs est associé à l’induction de la multimérisation de l’IN. Nous avons pu associer la multimérisation de l’IN à une déstabilisation du dimère par les INLAIs en analysant les co-structures de MUT-A avec les intégrases polymorphes. Les INLAIs, outre leur intérêt thérapeutique sont de remarquables réactifs qui ont permis de démontrer le rôle essentiel de l’intégrase à trois étapes clés du cycle viral du VIH-1 : la rétrotranscription, l’intégration et la maturation des virions. / HIV-1, the causative agent of AIDS, is a retrovirus that infects immune cells and hijacks their cell machinery to achieve rapid replication. In the course of infection, the RNA genome is reverse transcribed into DNA by the viral Reverse Transcriptase (RT) before the obligatory insertion of the proviral genome into the host cell DNA catalyzed by the viral enzyme Integrase (IN). The interaction of IN with its essential cofactor, the nuclear protein LEDGF/p75, targets integration within gene introns in highly transcribed chromatine regions, which allows efficient production of new virions. IN-LEDGF Allosteric Inhibitors (INLAIs) are a novel class of antiretroviral molecules binding IN at the LEDGF/p75-binding site. Designed to competitively inhibit IN-LEDGF/p75 protein-protein interaction, they are also capable of inhibiting IN enzymatic activities and raising the IN multimerization level.We studied several new INLAI series from the company Mutabilis. We could demonstrate that these molecules inhibit integration, but also have a more potent, LEDGF-independent, antiretroviral effect during virion maturation, resulting in the production of non-infectious virions. Virions produced upon INLAI treatment have an eccentric morphology characterized by an encapsidation defect of the viral genome, and lead to an infection block at reverse transcription. Yet, we showed that these virions package a stable and functional viral genome, an active RT and the tRNALys3 primer for reverse transcription, and also keep their immunoreactivity towards B- and T-cell lymphocytes. When evaluating the influence of polymorphism at the edge of the binding site, we identified the IN Ala125 polymorphic variant which causes the concomitant loss of MUT-A effect on virion maturation and IN multimerization, whereas inhibition of integration and IN-LEDGF interaction are maintained. This proves that INLAIs exert their late stage effect through induction of IN multimerization. We could associate IN multimerization to INLAI-induced dimer destabilization by analyzing MUT-A co-structures with polymorphic integrases. Beside their therapeutic interest INLAIs are highly valuable reagents that allowed to demonstrate the essential role of integrase at three key steps of the HIV-1 replication cycle, reverse transcription, integration and virus maturation.

LEDGF/p75

Inhibition allostérique

Interaction protéine-protéine

LEDGF/p75

Allosteric inhibition

Protein-protein interaction

IN-LEDGF Allosteric Inhibitors

Příprava a charakterizace lidských buněčných kofaktorů retrovirové integrace / Preparation and characterization of human cellular cofactors of retroviral integration.

Čermáková, Kateřina

January 2010

Lens epithelium-derived growth factor/p75 (LEDGF/p75) is a prominent cellular binding partner of Human Immunodeficiency Virus type 1 (HIV-1) integrase. It is a human nuclear protein, which has been implicated in transcriptional regulation and cell survival. The role of LEDGF/p75 in HIV integration is well characterized, the HIV integrase binding domain (IBD) was identified and structural studies, which provide detail information about this interaction, were done. However, very little is known about its physiological function. As a transcriptional co-activator, LEDGF/p75 is implicated not only in HIV replication, but also in human cancer and autoimmunity. Key feature for both, the viral and cellular role of this protein, is its ability to act as a molecular adaptor tethering proteins to the chromatin fiber. Recently, PogZ (Pogo transposable element derived protein with zinc finger domain) was identified and validated as a new cellular interaction partner of LEDGF/p75. It was shown, that their interaction is mediated by IBD of LEDGF/p75 and the C-terminal domain of PogZ. To gain more insight in this interaction, we have initiated structural studies of their complex. Structural information is crucial for understanding the LEDGF/p75 biological role and might help in design of inhibitors selectively blocking...

The role of BDNF in the injured/regenerating sensory neuron

Geremia, Nicole Marie

22 December 2005

Peripheral nerve injury induces a robust regenerative state in sensory neurons that includes elevated expression of injury/regeneration-associated genes. The molecular signal(s) underlying the transition to the regenerating state are largely unknown. Brain-derived neurotrophic factor (BDNF) is the sole identified neurotrophin that is upregulated in sensory neurons following peripheral nerve injury. As members of the neurotrophin family exert a profound influence on the intact phenotype of sensory neurons, I hypothesize that injury-associated alterations in BDNF expression play a similar role in the injured/regenerating response. Antagonizing endogenous BDNF with a function-blocking antibody prevented increases in injury/regeneration-associated gene expression and decreased the growth capabilities of the injured sensory neurons. However, BDNF was not important for maintaining this cell body response in injured neurons. The elevation of BDNF expression in injured sensory neurons either through intrathecal infusion or electrical stimulation was associated with increased injury/regeneration-associated gene expression in a dose dependent manner and the latter corresponded to increased sensory axonal regeneration. Though BDNF was able to induce and enhance the intrinsic cell body response of injured sensory neurons, exogenous BDNF was not sufficient to induce an injury phenotype in intact sensory neurons. Thus, additional signals are likely induced by the injury response. In conclusion, BDNF plays a critical role in inducing the regenerative state in sensory neurons following injury and strategies aimed at elevating levels of BDNF available to the injured sensory neuron during the inductive phase improve the cell body response.

cell body response

p75

alternating current

trkB

axotomy

biochemical markers

dorsal root ganglia

The role of BDNF in the injured/regenerating sensory neuron

Geremia, Nicole Marie

22 December 2005

Peripheral nerve injury induces a robust regenerative state in sensory neurons that includes elevated expression of injury/regeneration-associated genes. The molecular signal(s) underlying the transition to the regenerating state are largely unknown. Brain-derived neurotrophic factor (BDNF) is the sole identified neurotrophin that is upregulated in sensory neurons following peripheral nerve injury. As members of the neurotrophin family exert a profound influence on the intact phenotype of sensory neurons, I hypothesize that injury-associated alterations in BDNF expression play a similar role in the injured/regenerating response. Antagonizing endogenous BDNF with a function-blocking antibody prevented increases in injury/regeneration-associated gene expression and decreased the growth capabilities of the injured sensory neurons. However, BDNF was not important for maintaining this cell body response in injured neurons. The elevation of BDNF expression in injured sensory neurons either through intrathecal infusion or electrical stimulation was associated with increased injury/regeneration-associated gene expression in a dose dependent manner and the latter corresponded to increased sensory axonal regeneration. Though BDNF was able to induce and enhance the intrinsic cell body response of injured sensory neurons, exogenous BDNF was not sufficient to induce an injury phenotype in intact sensory neurons. Thus, additional signals are likely induced by the injury response. In conclusion, BDNF plays a critical role in inducing the regenerative state in sensory neurons following injury and strategies aimed at elevating levels of BDNF available to the injured sensory neuron during the inductive phase improve the cell body response.

cell body response

p75

alternating current

trkB

axotomy

biochemical markers

dorsal root ganglia

Die Bedeutung des p75-Neurotrophinrezeptors während der De- und Remyelinisierung im Cuprizon- Modell der Multiplen Sklerose / The significance of the p75NTR during de- and remyelination in cuprizone-induced demyelination of Multiple Sclerosis

Schüle, Susann-Cathrin

11 June 2013

No description available.

610

p75-Neurotrophinrezeptor

Remyelinisierung im Cuprizon- Modell

p75NTR

Multiple Sclerosis

Remyelination

Medizin (PPN619874732)

Immunohistochemical profile of odontogenic epithelium of developing dog teeth (Canis Familiaris)

Nel, Sulette

14 October 2009

Similarities between the acanthomatous epulis and ameloblastomas resulted in debate regarding the nature and origin of the acanthomatous epulis found in dogs. In an attempt to elucidate the origin and character of the acanthomatous epulides, this study aimed to find suitable cell markers to identify odontogenic epithelium versus oral epithelium in developing dog teeth in order to use in future research on the pathogenesis and pathology of odontogenic neoplasms in dogs. As specific markers for odontogenic epithelium have not been described in dog tissue, proposed markers of odontogenic epithelium of human and rat tissues were tested on developing dog teeth. Keratin 14, keratin 19, amelogenin, p75 neurotrophin receptor and calretinin have been proposed as markers for inner enamel epithelium and/or ameloblasts in human and rat tissue and was therefore included in this study. Keratin 14 and keratin 19 can not be regarded as specific markers of odontogenic epithelium as various other types of epithelium also stained positive with these markers. Amelogenin could be a promising marker to distinguish between odontogenic tumours and non-odontogenic tumours as it was only detected in odontogenic tissues in this study. However, amelogenin has also been observed in other tissues in dogs and rats, and therefore further studies on this protein will be needed to elucidate the expression profile of amelogenin in odontogenic versus non-odontogenic tissues in dogs. p75 Neurotrophin receptor expression was restricted to certain regions of the inner enamel epithelium and no staining was observed in other epithelial cells. It therefore seems to be a promising marker to differentiate between odontogenic and non-odontogenic epithelium, but the widespread staining observed in the mesenchymal tissue makes differentiation between odontogenic and non-odontogenic stromal elements impossible. Calretinin staining was observed in the alveolar epithelial cells directly overlying the developing tooth germ, proposed as the oral epithelium where the dental lamina takes origin from, as well as the dental laminae and Serres rests. No staining was observed in the rest of the oral epithelium and it can therefore be proposed that calretinin could be a useful marker to distinguish between odontogenic and non-odontogenic epithelial cells. In light of the results found in this study on foetal tissue, the expression profile may be different in adult tissue. Odontogenic tumours in adult dogs may originate from remnants of odontogenic tissue like Serres rests and Malassez rests. It is therefore proposed that this study be repeated on adult dog tissue with specific reference to Serres rests, Malassez rests and the associated gingiva Copyright / Dissertation (MSc)--University of Pretoria, 2008. / Oral Pathology and Oral Biology / unrestricted

Keratin 19

Keratin 14

Calretinin

Canine

Dogs

Odontogenesis

Odontogenic epithelium

Amelogenin

P75 neurotrophin receptor

UCTD

The Role of the p75 Neurotrophin Receptor in Experimental Inflammation of the Central Nervous System / Die Rolle des p75 Neurotrophin-Rezeptors in der experimentellen Inflammation des zentralen Nervensystems

Dallenga, Tobias

08 December 2010

Das Ausmaß der permanenten klinischen Defizite bei Multiple-Sklerose-Patienten entsteht durch axonale Schädigung und axonalem Verlust. In dieser Studie wird eine entscheidende Rolle des niedrigaffinen Neurotrophinrezeptors p75NTR in Bezug auf axonale Schädigung in der experimentellen autoimmunen Encephalitomyelitis (EAE) gezeigt. Nach EAE Induktion per aktiver Immunisierung mit dem Myelin-Oligodendrozyten-Glykoprotein-Peptid MOG35-55 zeigten p75NTR KO Mäuse einen verschlechterten Krankheitsverlauf, stärkere Demyelinisierung und erhöhte axonale Schädigung. Um festzustellen, ob die erhöhten Defizite von einer aggressiveren Inflammation oder von einem vulnerableren zentralen Nervensystem (ZNS) stammen, wurden das Immunsystem während der peripheren Krankheitsentstehung und der darauffolgenden Krankheitsphase und Zellen des ZNS in vivo, ex vivo und in vitro untersucht. Es wurde kein Unterschied in der Qualität der Inflammation mit Hilfe von immunohistochemischen, durchfluss-zytometrischen, ELISA- und mRNA-Analysen gefunden, wodurch eine entscheidende Rolle der untersuchten Immunzellpopulationen ausgeschlossen werden kann. Notzdestrotrotz legt die konstitutive Expression von p75NTR auf B-Zellen eine Rolle für p75NTR während der Generation der Immunantwort innerhalb der Lymphknoten nahe, da p75NTR KO Mäuse von Anfang an einen erhöhten Krankheitsverlauf zeigten. Um die Effekte der p75NTR-Defizienz während des peripheren Primings zu umgehen, wurde die EAE auch durch adoptiven Transfer eines encephalitogenen MOG35-55-spezifischen T-Zell-Klones in p75NTR KO und Wildtyp (wt) Mäusen iduziert. Sie zeigten ähnliche Inzidenz, Beginn und Kinetik der Krankheit. Ein vergleichbares Ausmaß und eine vergleichbare Qualität der Inflammation wurde mit immunohistochemischen und mRNA-Analysen in beiden Mausstämmen am Höhepunkt der Krankheit gefunden. Nichtsdestotrotz leideten p75NTR KO Mäuse an signifikant erhöhten Krankheits-Scores in der chronischen Phase infolge von erhöhtem axonalen Schaden und Verlust. Dies deutet auf eine protektive Rolle von p75NTR im ZNS hin. In dieser Arbeit wird gezeigt, dass Astrozyten, aber nicht Mikroglia, p75NTR konstitutiv exprimieren. Jedoch wurde keine p75NTR-mediierte Regulation von Cytokinen/Chemokinen und der Produktion von reaktiven Sauerstoff-Spezies in vitro gefunden. Aktive Immunisierung von Knochenmark-Chimären, in denen nur Immun- oder ZNS-Zellen einen funktionierenden p75NTR tragen, bestätigen diese Resultate. Während p75NTR KO in wt- und wt in p75NTR KO-Chimären im Vergleich zu wt in wt-Chimären unter einem stärker ausgeprägten Krankheitsverlauf am Höhepunkt der Krankheit leideten, zeigten nur wt in p75NTR KO-Tiere erhöhten axonalen Schaden und Verlust. Zusammengefaßt deuten diese Daten darauf hin, dass p75NTR-Defizienz zu einer aggressiveren peripheren Immunantwort führt (namentlich durch B-Zellen). Desweiteren hat p75NTR auch neuroprotektive Eigenschaften innerhalb des ZNS (namentlich auf Neuronen) unter experimentellen inflammatorischen Bedingungen im ZNS.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

Multiple Sklerose

p75

eae

adoptiver transfer

multiple sclerosis

p75

eae

adoptive transfer

42.15