Possible Role of Osteoblasts in Regulating the Initiation of Endochondral Repair Process during Fracture Healing

Amani Andabili, Yasha

21 March 2012

Fracture repair is a regenerative event that involves the precise coordination of a variety of cells for successful healing process. Within the microstructure hierarchy of bone repair, the predominant cells involved include the chondrocytes, osteocytes, osteoblasts, and osteoclasts. Although the role of osteoblasts during fracture healing has been previously shown, their role during the initiation phase of endochondral fracture repair remains unclear. In order to study the role of osteoblasts during fracture repair, we used a transgenic mouse model expressing the herpes simplex virus thymidine kinase gene in early differentiating osteoblasts, which allows conditional ablation of cells in osteoblastic lineage upon treatment with the Gancicolvir drug. Results from this study suggest that not only are osteoblasts required in later stages of fracture repair as the medium for bone synthesis, and osteoclast activation during bone remodelling, but could also be required for the initiation and advancement of the endochondral ossification process.

Fracture repair

Endochondral Ossification

Osteoblast

Osteoclast

Chondrocyte

Herpes simplex virus thymidine kinase

Gacnciclovir

Possible Role of Osteoblasts in Regulating the Initiation of Endochondral Repair Process during Fracture Healing

Amani Andabili, Yasha

21 March 2012

Fracture repair is a regenerative event that involves the precise coordination of a variety of cells for successful healing process. Within the microstructure hierarchy of bone repair, the predominant cells involved include the chondrocytes, osteocytes, osteoblasts, and osteoclasts. Although the role of osteoblasts during fracture healing has been previously shown, their role during the initiation phase of endochondral fracture repair remains unclear. In order to study the role of osteoblasts during fracture repair, we used a transgenic mouse model expressing the herpes simplex virus thymidine kinase gene in early differentiating osteoblasts, which allows conditional ablation of cells in osteoblastic lineage upon treatment with the Gancicolvir drug. Results from this study suggest that not only are osteoblasts required in later stages of fracture repair as the medium for bone synthesis, and osteoclast activation during bone remodelling, but could also be required for the initiation and advancement of the endochondral ossification process.

Fracture repair

Endochondral Ossification

Osteoblast

Osteoclast

Chondrocyte

Herpes simplex virus thymidine kinase

Gacnciclovir

The effect of brn3a and zhangfei on the nerve growth factor receptor, trkA.

Valderram Linares, Ximena Paola

30 August 2007

Herpes simplex viruses (HSV) establish latent infections in sensory neurons of their host and are maintained in this state by little understood mechanisms that, at least in part, are regulated by signalling through nerve growth factor (NGF) and its receptor tropomyosin related kinase, trkA. Previous studies have demonstrated that Zhangfei is a transcriptional factor that is expressed in differentiated neurons and is thought to influence HSV replication and latency. Zhangfei, like the HSV trans-activator VP16 and Luman, binds the ubiquitous nuclear protein host cell factor (HCF) inhibiting the ability of VP16 and Luman to initiate HSV replication. <p>Recently, Brn3a, another neuronal factor thought to influence HSV latency and reactivation was found to possess an HCF-binding domain and could potentially require HCF for activity. The neuronal POU IV domain protein, Brn3a, among its many regulatory functions has been described as an enhancer of the NGF receptor trkA, during development in mouse. I therefore investigated the possible link between Brn3a, TrkA, NGF signaling, HCF, Zhangfei and HSV-1 latency and reactivation. I hypothesized that Zhangfei would also suppress the ability of Brn3a to activate the expression of TrkA and that this would have an impact on NGF-TrkA signaling and, consequently on HSV-1 reactivation from latency.<p>My first study determined which Brn3a/trkA promoter interactions were important for trkA transcription. I constructed a plasmid that contains 1043 base pairs of genomic sequences that extend from 30 nucleotides upstream of trkA coding region. In contrast to previous data, a short 190 bp region that lies proximal to the trkA initiation codon was sufficient for Brn3a trans-activation in NGF-differentiated PC12, Vero and human medulloblastoma cells. At least two portions of the 190 bp fragment bind to Brn3a. In addition, Brn3a increased endogenous levels of trkA transcripts in PC12 cells and initiated trkA expression in medulloblastoma cells, which normally do not express trkA. <p>The second step was to determine the effects of HCF and Zhangfei association with Brn3a on trkA trans-activation. I found that Brn3a required HCF for activating the trkA promoter and that Zhangfei has a suppressive effect over Brn3a-trkA activation in non-neuronal cells. In sympathetic neuron-like NGF-treated PC12 cells, Zhangfei did not suppress the ability of Brn3a to activate the TrkA promoter, however, Zhangfei was able capable of inducing the expression of TrkA in the absence of Brn3a. Both Brn3a and Zhangfei induced the expression of endogenous trkA in PC12 cells.<p>Since Vero and PC12 cells are not from human origin I wanted to examine the ability of Zhangfei to induce trkA transcription in medulloblastoma cells, that because of its tumor nature do not express trkA. TrkA transfections in these cells have shown to drive them to cell arrest or apoptosis. Since Zhangfei is not express in medulloblastoma tumors I then used ONS-76 medulloblastoma cells as a model to determine Zhangfeis envolvement in the NGF-trkA signaling pathway.<p> I show herein that in ONS-76 medulloblastoma cells resveratrol, an inducer of apoptosis and differentiation, increased the expression of Zhangfei and trkA as well as Early Growth Response Gene 1 (Egr1), a gene normally activated by NGF-trkA signalling. ONS-76 cells stop growing soon after treatment with resveratrol and a portion of the cell undergo apoptosis. While the induction of Zhangfei in resveratrol-treated cells was modest albeit consistent, the infection of actively growing medulloblastoma cells with an adenovirus vector expressing Zhangfei mimicked the effects of resveratrol. Zhangfei activated the expression of trkA and Egr1 and caused these cells to display markers of apoptosis. The phosphorylation of Erk1, an intermediate kinase in the NGF-trkA signaling critical for differentiation, was observed in Zhangfei infected cells, supporting the hypothesis that Zhangfei is a mediator of trkA-NGF signaling in theses cells leading either to differentiation or apoptosis. Binding of HCF by Zhangfei did not appear to be required for this effect as a mutant of Zhangfei incapable of binding HCF was also able to induce the expression of trkA and Egr1. <p>In in vivo and in vitro models of HSV-1 latency, the virus reactivates when NGF supply to the neuron is interrupted. Based on the above evidence Zhangfei, in HSV-1 latently infected neurons, would have the ability to prolong a state of latency by inducing trkA expression allowing the activation of NGF-trkA signaling pathway. Since NGF is produced by many cell types it is possible that reactivation is triggered not by a decrease in NGF but by a down-regulation of TrkA expression.Therefore, if Zhangfei expression is suppress the trkA signaling could be interrupted or shifted towards apoptosis signaling, this would allow neuronal HCF-binding proteins like Luman, which can activate HSV IE expression, to initiate HSV IE expression and subsequently viral replication.

HCF

host cell factor

herpes simplex virus

Zhangfei

medulloblastomas

PC12 cells

nerve growth factor

Brn3a

trkA

Mecanismes moleculars implicats en la interacció dels receptors cel·lulars herpes simplex virus entry mediator A (HveA) i receptor de complement 2 (CR2, CD21) amb els seus lligands

Sarrias Fornés, Maria Rosa

14 June 2001

L'estudi de la utilització del sistema immunològic de l'hoste pels virus com a patògens per al seu propi benefici fou el principal objectiu d'aquest treball. Concretament, en aquest treball de tesis es van analitzar dues espècies d'herpesvirus virulents en humans, l'Herpes Simplex Virus-1 (HSV-1) i l'Epstein Barr Virus (EBV). L'entrada d'ambdós virus a les cèl.lules és mediada per receptors del sistema immunològic. Es va estudiar la interacció dels respectius receptors cel.lulars, Herpes Virus Entry mediator A (HveA), i el receptor de complement 2 (CR2), amb les glicoproteïnes virals que s'hi uneixen, i amb llurs lligands naturals, els quals participen en la defensa de l'hoste. Es va caracteritzar la interacció dels receptors HveA i CR2 amb els seus lligands fent servir proteïnes recombinants o purificades de sèrum; en el cas de HveA ens vam centrar en la localització del lloc d'unió de cada lligand al receptor. En el cas de CR2, es va analitzar la cinètica d'unió dels seus lligands naturals. Per a ambdós receptors, es va analitzar si la unió de la proteïna viral al receptor podria interferir i/o modular-ne la unió dels seus lligands naturals. Els resultats es van analitzar dins del marc de la resposta immunològica de l'hoste mediada pel receptor cel·lular, i en relació al possible paper modificador d'aquesta resposta per part de la proteïna viral. Per a facilitar el nostre estudi sobre HveA, es van cercar nous lligands peptídics d'aquest receptor, utilitzant llibreries aleatòries de pèptids expressades en el fag M13. Es van aïllar dos pèptids, i es va estudiar la seva interacció amb el receptor i la seva capacitat d'inhibir l'entrada del virus a les cèl·lules, és a dir, com a possibles agents terapèutics. / Our goal in the present work was to study the manipulation of the host immune system by an infecting virus to its own benefit. Specifically, we studied two herpes viruses; Herpes Simplex Virus-1 (HSV-1) and Epstein Barr Virus (EBV), which infect humans. Entry of both viruses into the cell is mediated by the interaction of a specific viral surface glycoprotein with two receptors that participate in the host immune response, the Herpes Virus Entry mediator A (HveA), and complement receptor 2 (CR2). We studied the interaction of these receptors with the viral glycoproteins as well as their host ligands. The latter play a role in the immune response of the host. We characterized these interactions by using recombinant as well as serum-purified proteins. Our study of HveA sought to localize the specific binding site of each ligand on the receptor, while that of CR2 consisted in the kinetic analysis of its interaction with its ligands. We also analyzed whether binding of the viral glycoprotein to each receptor would interfere or modulate its interaction with its host ligands. Our results were analyzed in the context of the role of these receptors in the host immune response, and specifically whether the viral proteins studied undermined the host's ability to defend itself from infection. To study the relationship between HveA, its natural ligands, and the viral proteins involved in HSV entry, we also screened two phage-displayed combinatorial peptide libraries for peptide ligands of a recombinant form of HveA. We isolated two peptides, and studied their interaction with HveA as well as their ability to block HSV entry into HveA-bearing cells.

Herpes simplex virus

Sistema immunològic

Epstein Barr Virus

Ciències Experimentals

612

Diagnosing Changes in Cells Using FTIR Microspectroscopy

Guo, Jing

13 May 2011

Fourier transform infrared (FTIR) microscopy has shown promise as an analytical tool for detecting changes in cells and tissues, such as those due to viral infection, apoptosis induction or malignancy. In many cases, diagnosis via FTIR microscopy can be undertaken on a timescale shorter than that required for other physical or histological techniques. In this work we have used FTIR microscopy to study Vero cells that have been infected with herpes simplex virus (type I) and adenovirus. We have studied cellular samples at various time intervals following exposure to the virus. Several spectral regions were identified that allow discrimination between infected and uninfected Vero cell samples at 24 hours post exposure to both HSV1 and adenovirus. Spectral features were also identified that could be used to discriminate infected cells within 2-6 hours after exposure to both viruses. FTIR microscopy is therefore a useful tool for following the kinetics of viral infection in the 2-24 hours time range, at least at the levels of infection used in this study. In a second type of study, FTIR microscopy was used to study apoptosis induction in acute lymphoblastic leukemia T-cells. Apoptosis was induced in T-cells in three different ways. We show that FTIR microscopy can be used to distinguish T-cells in the early stages of apoptosis from normal cells. We also provide data that may suggest that FTIR microscopy can distinguish cells that have undergone apoptosis via different pathways. For most of the FTIR microscopic studies on cellular samples we have focused on the collection of spectral data in the 1500-800 cm-1 region. Spectra were collected for control cells and variously treated cells. The two sets of cells were then analyzed statistically using: 1) pair-wise comparison, 2) logistic regression, 3) partial least square regression, 4) principle component fed linear discriminant analysis and 5) hierarchical cluster analysis. The statistical analyses rigorously quantify to what extent treated and untreated cells can be distinguished. Since different statistical methods give differing results for the same data, it is important the right statistical method should be applied. The basis for these differences is discussed.

FTIR Microspectroscopy

Vero cells

Herpes simplex virus

T-cells

Apoptosis.

Astrophysics and Astronomy

Physics

The effect of brn3a and zhangfei on the nerve growth factor receptor, trkA.

Valderram Linares, Ximena Paola

30 August 2007

Herpes simplex viruses (HSV) establish latent infections in sensory neurons of their host and are maintained in this state by little understood mechanisms that, at least in part, are regulated by signalling through nerve growth factor (NGF) and its receptor tropomyosin related kinase, trkA. Previous studies have demonstrated that Zhangfei is a transcriptional factor that is expressed in differentiated neurons and is thought to influence HSV replication and latency. Zhangfei, like the HSV trans-activator VP16 and Luman, binds the ubiquitous nuclear protein host cell factor (HCF) inhibiting the ability of VP16 and Luman to initiate HSV replication. <p>Recently, Brn3a, another neuronal factor thought to influence HSV latency and reactivation was found to possess an HCF-binding domain and could potentially require HCF for activity. The neuronal POU IV domain protein, Brn3a, among its many regulatory functions has been described as an enhancer of the NGF receptor trkA, during development in mouse. I therefore investigated the possible link between Brn3a, TrkA, NGF signaling, HCF, Zhangfei and HSV-1 latency and reactivation. I hypothesized that Zhangfei would also suppress the ability of Brn3a to activate the expression of TrkA and that this would have an impact on NGF-TrkA signaling and, consequently on HSV-1 reactivation from latency.<p>My first study determined which Brn3a/trkA promoter interactions were important for trkA transcription. I constructed a plasmid that contains 1043 base pairs of genomic sequences that extend from 30 nucleotides upstream of trkA coding region. In contrast to previous data, a short 190 bp region that lies proximal to the trkA initiation codon was sufficient for Brn3a trans-activation in NGF-differentiated PC12, Vero and human medulloblastoma cells. At least two portions of the 190 bp fragment bind to Brn3a. In addition, Brn3a increased endogenous levels of trkA transcripts in PC12 cells and initiated trkA expression in medulloblastoma cells, which normally do not express trkA. <p>The second step was to determine the effects of HCF and Zhangfei association with Brn3a on trkA trans-activation. I found that Brn3a required HCF for activating the trkA promoter and that Zhangfei has a suppressive effect over Brn3a-trkA activation in non-neuronal cells. In sympathetic neuron-like NGF-treated PC12 cells, Zhangfei did not suppress the ability of Brn3a to activate the TrkA promoter, however, Zhangfei was able capable of inducing the expression of TrkA in the absence of Brn3a. Both Brn3a and Zhangfei induced the expression of endogenous trkA in PC12 cells.<p>Since Vero and PC12 cells are not from human origin I wanted to examine the ability of Zhangfei to induce trkA transcription in medulloblastoma cells, that because of its tumor nature do not express trkA. TrkA transfections in these cells have shown to drive them to cell arrest or apoptosis. Since Zhangfei is not express in medulloblastoma tumors I then used ONS-76 medulloblastoma cells as a model to determine Zhangfeis envolvement in the NGF-trkA signaling pathway.<p> I show herein that in ONS-76 medulloblastoma cells resveratrol, an inducer of apoptosis and differentiation, increased the expression of Zhangfei and trkA as well as Early Growth Response Gene 1 (Egr1), a gene normally activated by NGF-trkA signalling. ONS-76 cells stop growing soon after treatment with resveratrol and a portion of the cell undergo apoptosis. While the induction of Zhangfei in resveratrol-treated cells was modest albeit consistent, the infection of actively growing medulloblastoma cells with an adenovirus vector expressing Zhangfei mimicked the effects of resveratrol. Zhangfei activated the expression of trkA and Egr1 and caused these cells to display markers of apoptosis. The phosphorylation of Erk1, an intermediate kinase in the NGF-trkA signaling critical for differentiation, was observed in Zhangfei infected cells, supporting the hypothesis that Zhangfei is a mediator of trkA-NGF signaling in theses cells leading either to differentiation or apoptosis. Binding of HCF by Zhangfei did not appear to be required for this effect as a mutant of Zhangfei incapable of binding HCF was also able to induce the expression of trkA and Egr1. <p>In in vivo and in vitro models of HSV-1 latency, the virus reactivates when NGF supply to the neuron is interrupted. Based on the above evidence Zhangfei, in HSV-1 latently infected neurons, would have the ability to prolong a state of latency by inducing trkA expression allowing the activation of NGF-trkA signaling pathway. Since NGF is produced by many cell types it is possible that reactivation is triggered not by a decrease in NGF but by a down-regulation of TrkA expression.Therefore, if Zhangfei expression is suppress the trkA signaling could be interrupted or shifted towards apoptosis signaling, this would allow neuronal HCF-binding proteins like Luman, which can activate HSV IE expression, to initiate HSV IE expression and subsequently viral replication.

HCF

host cell factor

herpes simplex virus

Zhangfei

medulloblastomas

PC12 cells

nerve growth factor

Brn3a

trkA

グリオーマの遺伝子治療

若林, 俊彦, 中原, 紀元, 水野, 正明, 梶田, 泰一, 吉田, 純, Wakabayashi, Toshihiko, Nakahara, Norimoto, Kajita, Yasukazu, Mizuno, Masaaki, Yoshida, Jun

08 1900

No description available.

glioma

gene therapy

clinical trial

cytokine

Mechanism of herpes simplex virus type 1 latency in transgenic mouse models

Loiacono, Christina Marie,

January 2002

Thesis (Ph. D.)--University of Missouri--Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 89-103). Also available on the Internet.

Global quantitative host proteomic assay of infected cells highlight virus specific protein changes and identify a novel role for secretogranin ii protein in virus infections

Berard, Alicia

15 June 2015

Viruses are obligate parasites that use the host cellular machinery to produce progeny virions. The host responds to this invading pathogen by induction of the immune system; however, the virus employs a variety of strategies to overcome these attacks. The complexity of the virus-host interaction is of great interest to researchers with aims to both characterize the relationship and target steps of the viral life cycle to hinder infection. Many targeted tactics employ single protein analysis; however, approaches that examine the whole set of virus/host interactions are available. Transcriptional alterations within host cells have been determined for many virus- host interactions by micro-array techniques; however little is known about the effects on cellular proteins. This study uses a quantitative mass spectrometric-based method, SILAC, to study differences in a host cell's proteome with infection by a virus. Mammalian reoviruses and herpes simplex viruses are prototypical viruses commonly studied to determine virus life cycle and interactions with hosts. Using three strains of reoviruses and one HSV1 strain, cells were infected to identify differentially regulated proteins at different times. Thousands of proteins were identified for each virus type, some up or down regulated after infection. Biological functions and network analyses were performed using online networking tools. These pathway analyses indicated numerous processes including cell death and inflammatory response are affected by T1L reovirus infection. Comparing reovirus strains revealed a greater overall proteomic change in host function when infected with the more pathogenic T3DC strain. For the HSV infection, host proteins altered during the different immediate early, earlyand late phases of infection helped characterize the host-virus interaction parallel to the virus life cycle. Overall, my study has characterized proteomic changes in different virus infection systems, identifying numerous novel cellular functional pathways and specific proteins altered during virus infections, specifically the secretogranin II protein that had opposite types of regulation in reoviruses and HSV and was examined for its effects on virus replication. Further studies on the novel proteomic characteristics may provide greater understanding to the complex virus-host interactome, leading to possible antiviral targets. / October 2015

SILAC

Reovirus

Herpes simplex virus 1

Proteomics

Host-virus relationship

Cell biology

Mass spectrometry

Systems biology

A biophysical study of intranuclear herpes simplex virus type 1 DNA during lytic infection

Lacasse, Jonathan J

Unknown Date

No description available.

herpes simplex virus

chromatin

unstable nucleosome

roscovitine

pharmacological CDK inhibitors

micrococcal nuclease