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ABSTRACT: Human metapneumovirus (HMPV) is a paramyxovirus causing acute respiratory tract infections in humans. The effects of a monoclonal antibody (MAb 338, MedImmune, Inc.) directed against the HMPV fusion protein were assessed in vivo. Different groups of BALB/c mice received an intraperitoneal injection of 25 or 50mg/kg of MAb 338 either 24h before or 48h after viral infection. Lung samples were collected on days 5 and 42 after infection for determination of viral titers and histopathological changes. Pulmonary functions were also evaluated by plethysmography. On day 5 post-infection, lung viral titers were significantly decreased in mice treated with 25 or 50mg/kg before or after viral infection compared to HMPV-infected control mice. Similarly, HMPV copy numbers on day 42 were decreased for all prophylactic and therapeutic interventions. Histopathological changes were also less severe in all treated groups of mice on days 5 and 42 post-infection, correlating with decreased airways obstruction. Finally, on day 42, all treated groups had a significant decrease in airways hyperresponsiveness following treatment with MAb 338. Both prophylactic and, to a lesser extent, therapeutic administration of MAb 338 improved acute and late consequences of HMPV infection in a relevant mouse model.
Antiviral research 10/2010; 88(1):31-7. · 3.61 Impact Factor
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ABSTRACT: Respiratory Syncytial Virus (RSV) is the leading cause of pneumonia and bronchiolitis in infants and children <1 year old, resulting in significant morbidity and mortality worldwide. There is currently no RSV vaccine. In the 1960s, a formalin-inactivated RSV (FI-RSV) vaccine trial led to exacerbated disease upon natural infection of vaccinees, including two deaths. The causes involved in the disastrous results of these vaccine trials are still unclear but they remain the engine for searching new avenues to develop a safe vaccine that can provide long-term protection against this important pathogen. This article reviews some of the early history of RSV vaccine development,as well as more recent information on the interaction between RSV and the host innate and adaptive immune responses. A safe and efficacious vaccine for RSV will require "re-education" of the host immune response against RSV to prevent vaccine-enhanced or severe RSV disease.
Human vaccines 06/2010; 6(6):482-92. · 3.58 Impact Factor
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ABSTRACT: Interferon (IFN) therapy in humans often causes flu-like symptoms by an unknown mechanism. Poly ICLC is a synthetic dsRNA and a Toll-like receptor 3 (TLR3) agonist with a strong IFN-inducing ability. In this work, we analyzed the effect of poly ICLC on pulmonary responses to influenza and respiratory syncytial virus (RSV) infections in the cotton rat (Sigmodon hispidus) model. Viral replication, pulmonary inflammation, and expression of IFN, TLR, and chemokines were monitored and compared. Antiviral effect of poly ICLC against influenza virus and RSV was best achieved at high poly ICLC concentrations that, in the absence of virus infection, induced a strong IFN response. The antiviral doses of poly ICLC, however, also increased lung inflammation, an unexpected finding because of the reported poly ICLC safety in BALB/c mice. Similarly, in contrast to murine model, pathology of RSV infection was increased in cotton rats treated with poly ICLC. Augmented lung inflammation was accompanied by an earlier induction of IFN and TLR responses and a stronger chemokine expression. Overall, these findings indicate significant association between antiviral IFN action and pulmonary inflammation and highlight important animal model-specific variations in the potential of IFN to cause pathology.
Journal of interferon & cytokine research: the official journal of the International Society for Interferon and Cytokine Research 04/2010; 30(4):229-42. · 1.63 Impact Factor
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ABSTRACT: Viral infection is normally detected either by viral culture or by PCR methods. Rarely is a combination of the two techniques used in the same study. Yet, when applied simultaneously, viral culture and PCR may reveal important features of viral biology, such as an abortive replication, as in the case of respiratory syncytial virus (RSV) infection. In this unit, we describe methods for detecting abortive RSV replication in a cotton rat model by using the plaque-forming unit assay and the real-time reverse-transcription PCR (qRT-PCR) assay. All steps of the process of monitoring viral replication in vivo are described, starting from the design of animal infection protocols. We continue on to the methods for extracting and processing lung samples for viral culture and RNA extraction, and finish with the actual methods of viral titration by the qRT-PCR and the plaque-forming unit assays.
Current protocols in cell biology / editorial board, Juan S. Bonifacino ... [et al.] 03/2010; Chapter 26:Unit26.6.
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ABSTRACT: Infectivity of retroviruses such as HIV-1 and MuLV can be abrogated by compounds targeting zinc finger motif in viral nucleocapsid protein (NC), involved in controlling the processivity of reverse transcription and virus infectivity. Although a member of a different viral family (Pneumoviridae), respiratory syncytial virus (RSV) contains a zinc finger protein M2-1 also involved in control of viral polymerase processivity. Given the functional similarity between the two proteins, it was possible that zinc finger-reactive compounds inactivating retroviruses would have a similar effect against RSV by targeting RSV M2-1 protein. Moreover, inactivation of RSV through modification of an internal protein could yield a safer whole virus vaccine than that produced by RSV inactivation with formalin which modifies surface proteins.
Three compounds were evaluated for their ability to reduce RSV infectivity: 2,2'-dithiodipyridine (AT-2), tetraethylthiuram disulfide and tetramethylthiuram disulfide. All three were capable of inactivating RSV, with AT-2 being the most potent. The mechanism of action of AT-2 was analyzed and it was found that AT-2 treatment indeed results in the modification of RSV M2-1. Altered intramolecular disulfide bond formation in M2-1 protein of AT-2-treated RSV virions might have been responsible for abrogation of RSV infectivity. AT-2-inactivated RSV was found to be moderately immunogenic in the cotton rats S.hispidus and did not cause a vaccine-enhancement seen in animals vaccinated with formalin-inactivated RSV. Increasing immunogenicity of AT-2-inactivated RSV by adjuvant (Ribi), however, led to vaccine-enhanced disease.
This work presents evidence that compounds that inactivate retroviruses by targeting the zinc finger motif in their nucleocapsid proteins are also effective against RSV. AT-2-inactivated RSV vaccine is not strongly immunogenic in the absence of adjuvants. In the adjuvanted form, however, vaccine induces immunopathologic response. The mere preservation of surface antigens of RSV, therefore may not be sufficient to produce a highly-efficacious inactivated virus vaccine that does not lead to an atypical disease.
Virology Journal 01/2010; 7:20. · 2.34 Impact Factor
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ABSTRACT: Development of successful vaccines against human infectious diseases depends on using appropriate animal models for testing vaccine efficacy and safety. For some viral infections the task is further complicated by the frequently changing genetic make-up of the virus, as in the case of influenza, or by the existence of the little-understood phenomenon of vaccine-enhanced disease, as in the case of respiratory syncytial virus (RSV). The cotton rat Sigmodon hispidus has been used for years as an excellent small animal model of the RSV vaccine-enhanced disease. Recently, using cotton rats, we have demonstrated that vaccination against another paramyxovirus, human metapneumovirus (hMPV), can also lead to vaccine-enhanced disease. In addition to the study of paramyxoviruses, S. hispidus presents important advantages for the study of orthomyxoviruses such as influenza. The cotton rat is susceptible to infection with unadapted human influenza strains, and heterosubtypic immunity to influenza can be evoked in S. hispidus. The mechanisms of influenza, RSV, and hMPV pathogenesis and immunity can now be investigated in the cotton rat with the development of species-specific reagents for this animal model.
Biologicals 05/2009; 37(3):152-9. · 1.70 Impact Factor
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ABSTRACT: Human metapneumovirus (hMPV) is a recently described paramyxovirus that causes respiratory tract infections. Prior clinical studies have highlighted the importance of respiratory viruses, such as influenza virus, in facilitating secondary bacterial infections and increasing host immunopathology. The objective of the present work was to evaluate the effects of initial viral infection with hMPV or influenza A virus followed by Streptococcus pneumoniae superinfection 5 days later in a murine model. Both groups of superinfected mice demonstrated significant weight loss (mean of 15%) and higher levels of airway obstruction (mean enhanced pause value of 2.7) compared to those of mice infected with hMPV, influenza virus, or pneumococcus alone. Bacterial counts increased from 5 x 10(2) CFU/lung in mice infected with pneumococcus only to 10(7) and 10(9) CFU/lung in mice with prior infections with hMPV and influenza A virus, respectively. A more pronounced interstitial and alveolar inflammation correlated with higher levels of inflammatory cytokines and chemokines such as interleukin-1alpha (IL-1alpha), IL-1beta, IL-6, IL-12, monocyte chemotactic protein 1, macrophage inflammatory protein 1alpha, KC, and granulocyte colony-stimulating factor, as well as greater expression of Toll-like receptor 2 (TLR2), TLR6, TLR7, and TLR13 in the lungs of superinfected animals compared to results for single infections, with similar immunological effects seen in both coinfection models. Prior infection with either hMPV or influenza A virus predisposes mice to severe pneumococcus infection.
Journal of Virology 12/2008; 83(3):1341-9. · 5.40 Impact Factor
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ABSTRACT: Influenza virus infection or vaccination evokes an antibody response to viral hemagglutinin (HA) and neuraminidase (NA) surface glycoproteins, which results in immunity against influenza A viruses of the same HA and NA subtype. A heterosubtypic immune response that offers some protection against different influenza A subtypes has been suggested from epidemiologic studies in human influenza outbreaks, and has been induced in experimental animal models. Original studies of such cross-protection showed that cytotoxic T lymphocytes (CTL) protect H3N2-immune mice from a lethal H1N1 infection. More recent studies in mice demonstrate that antibodies also contribute to heterosubtypic immunity (HSI). We previously demonstrated that HSI in cotton rats (Sigmodon hispidus) is characterized by protection of H3N2-immune animals from influenza H1N1-induced increase in respiratory rate (tachypnea). Alternatively, H1N1-immune animals are protected from H3N2-induced tachypnea. The experiments described in this report were designed to elucidate the immune mechanism that prevents this very early sign of disease.
Our results show that cotton rats provided with H1N1-immune serum prior to challenge with an H3N2 virus were protected from influenza-associated tachypnea, with the degree of protection correlating with the antibody titer transferred. Immunization with an inactivated preparation of virus delivered intramuscularly also provided some protection suggesting that CTL and/or mucosal antibody responses are not required for protection. Antibodies specific for conserved epitopes present on the virus exterior are likely to facilitate this protection since prophylactic treatment of cotton rats with anti-M2e (the extracellular domain of M2) but not anti-nucleoprotein (NP) reduced virus-induced tachypnea.
In the cotton rat model of heterosubtypic immunity, humoral immunity plays a role in protecting animals from influenza-induced tachypea. Partial protection against respiratory disease caused by different influenza A subtypes can be attained with either live virus administered intranasally or inactivated virus delivered intramuscularly suggesting that either vaccine regimen may provide some protection against potential pandemic outbreaks in humans.
Virology Journal 02/2008; 5:44. · 2.34 Impact Factor
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ABSTRACT: Respiratory syncytial virus (RSV) is the primary cause of bronchiolitis in young children. In general, RSV is considered to be a poor inducer of type I (alpha/beta) interferons (IFNs). Measurement of active type I IFN production during infection in vivo is demanding, as multiple IFN subtypes with overlapping activities are produced. In contrast, Mx gene expression, which is tightly regulated by type I IFN expression, is easily determined. This study therefore measured Mx expression as a reliable surrogate marker of type I IFN activity during RSV infection in vivo in a cotton rat model. It was shown that expression of Mx genes was dramatically augmented in the lungs of infected animals in a dose- and virus strain-dependent manner. The expression of Mx genes in the lungs was paralleled by their induction in the nose and spleen, although in spleen no simultaneous virus gene expression was detected. Reinfection of RSV-immune animals leads to abortive virus replication in the lungs. Thus, type I IFN and Mx gene expression was triggered in reinfected animals, even though virus could not be isolated from their lungs. Furthermore, it was demonstrated that immunity to RSV wanes with time. Virus replication and Mx gene expression became more prominent with increasing intervals between primary infection and reinfection. These results highlight the role of type I IFN in modulation of the immune response to RSV.
Journal of General Virology 02/2008; 89(Pt 1):261-70. · 3.36 Impact Factor
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ABSTRACT: Human metapneumovirus (hMPV) can cause acute upper and lower respiratory tract infections that are particularly severe in young children, elderly subjects, and immunocompromised patients. To date, no treatments or vaccines are available for hMPV infections. Our objective was to assess the inhibitory potential of several peptides derived from the heptad repeat A and B (HRA and HRB) domains of the hMPV fusion protein. Nine candidate peptides were expressed in Escherichia coli or obtained synthetically and tested in vitro and in an animal model. Excellent in vitro inhibition of an hMPV strain of the A1 subgroup was obtained with five peptides, with 50% inhibitory concentrations ranging from 1.4 nM to 3.3 microM. One peptide, HRA2, displayed very potent activity against all four hMPV subgroups. It was also moderately active against human respiratory syncytial virus (strain A2) but displayed no activity against human parainfluenza virus type 3. BALB/c mice that received the HRA2 peptide and a lethal hMPV intranasal challenge simultaneously were completely protected from clinical symptoms and mortality. On day 5 postinfection, HRA2-treated mice had undetectable lung viral loads which were significantly less than those of untreated mice (3 x 10(4) 50% tissue culture infective doses/lung). Pulmonary inflammation, levels of proinflammatory cytokines/chemokines (RANTES, gamma interferon, and monocyte chemoattractant protein 1) and airway obstruction were also significantly decreased in HRA2-treated mice. The results of this study demonstrate that potent antivirals can be derived from the hMPV fusion protein HR domains. Moreover, hMPV, compared to other paramyxoviruses and to the human immunodeficiency virus, seems to be more susceptible to HRA- than HRB-derived peptides.
Antimicrobial Agents and Chemotherapy 02/2008; 52(1):279-87. · 4.84 Impact Factor
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ABSTRACT: Oncolytic adenoviruses as a treatment for cancer have demonstrated limited clinical activity. Contributing to this may be the relevance of preclinical animal models used to study these agents. Syngeneic mouse tumor models are generally non-permissive for adenoviral replication, whereas human tumor xenograft models exhibit attenuated immune responses to the vector. The cotton rat (Sigmodon hispidus) is susceptible to human adenovirus infection, permissive for viral replication and exhibits similar inflammatory pathology to humans with adenovirus replicating in the lungs, respiratory passages and cornea. We evaluated three transplantable tumorigenic cotton rat cell lines, CCRT, LCRT and VCRT as models for the study of oncolytic adenoviruses. All three cells lines were readily infected with adenovirus type-5-based vectors and exhibited high levels of transgene expression. The cell lines supported viral replication demonstrated by the induction of cytopathogenic effect (CPE) in tissue culture, increase in virus particle numbers and assembly of virions seen on transmission electron microscopy. In vivo, LCRT and VCRT tumors demonstrated delayed growth after injection with replicating adenovirus. No in vivo antitumor activity was seen in CCRT tumors despite in vitro oncolysis. Adenovirus was also rapidly cleared from the CCRT tumors compared to LCRT and VCRT tumors. The effect observed with the different cotton rat tumor cell lines mimics the variable results of human clinical trials highlighting the potential relevance of this model for assessing the activity and toxicity of oncolytic adenoviruses.
Virology 01/2008; 369(1):131-42. · 3.35 Impact Factor
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ABSTRACT: Respiratory syncytial virus (RSV) is a major cause of bronchiolitis and viral pneumonia in young children and a serious health risk in immunocompromised individuals and the elderly. Immunity to RSV is not completely understood. In this work, we established a method for monitoring RSV infection by real-time PCR and applied this method for analysis of RSV replication in vivo in the cotton rat model in naïve animals and in animals rendered immune to RSV by prior RSV infection. We found that even though no virus could be isolated from the lungs of RSV-challenged immune animals, RSV infection in fact took place and an accumulation of viral RNA transcripts was observed. This type of replication, therefore, can be termed "abortive," as RSV is capable of entering the cells in the lungs of immune animals, yet the production of progeny viruses is impaired. Similar patterns of RSV gene expression gradient were observed between naïve and reinfected animals, indicating that the skewing of mRNA gradient of viral gene expression, a mechanism documented during latent infection by other viruses, is not likely to be responsible for abortive replication of RSV during reinfection. We found that passive administration of antibodies to RSV prevents productive infection normally accompanied by viral release in the lung, but it does not prevent abortive replication of the virus. To the best of our knowledge, this is the first evidence of abortive replication of RSV in vivo.
Journal of Virology 10/2007; 81(17):9443-50. · 5.40 Impact Factor
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ABSTRACT: Cotton rats (Sigmodon hispidus) are susceptible to the recently discovered human metapneumovirus (hMPV), an agent closely related to human respiratory syncytial virus. Since certain respiratory syncytial virus vaccines can induce enhanced disease upon viral challenge, we have done similar experiments with hMPV in cotton rats. Young adult cotton rats were vaccinated with a formalin-inactivated preparation of hMPV strain C-85473, or with a mock preparation of the vaccine on day 0 and again on day 28. All animals were challenged intranasally on day 49 with 10(7) TCID50 of the same hMPV strain. Animals were sacrificed on days 4, 7, and 10 post-challenge and lungs were removed for viral quantitation, histopathology, and cytokine mRNA expression analysis (interferon-gamma (IFN-gamma) and interleukin-4 (IL-4)). Although the vaccinated animals showed almost complete protection from viral replication in the lungs (<10(2.0) TCID50 per gram), there was a dramatic increase in the lung pathology, particularly the interstitial pneumonitis and alveolitis with elevated serum neutralizing antibody titer prior to challenge. Cytokine profiles were distinctive from those observed during primary infection and re-infection. The data raise safety concerns for hMPV vaccine preparations.
Vaccine 07/2007; 25(27):5034-40. · 3.77 Impact Factor
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ABSTRACT: Respiratory syncytial virus (RSV) is the major cause of severe lower respiratory tract infection in infants and young children. Recently, RSV has also been recognized as a serious health risk in elderly individuals, but the pathogenesis of RSV infection in elderly individuals remains unknown.
Dynamics of pulmonary cytokine response (including interferon- gamma , interleukin [IL]-4, IL-10, IL-6, monocyte chemoattractant protein-1, and growth-regulated oncogene [GRO] mRNA) during acute RSV infection were investigated in young (<2 months old) and aged (>9 months old) cotton rats (Sigmodon hispidus). Therapeutic treatments that diminish viral replication (antiviral antibody) and pulmonary inflammation (anti-inflammatory corticosteroid) in RSV-infected cotton rats were used to evaluate the contribution of virus replication and inflammation to the development of RSV disease with respect to age.
The time of the peak expression of the majority of cytokines was shifted with respect to age. Antiviral and anti-inflammatory treatments had a similar effect on cytokine expression in aged and young cotton rats. GRO mRNA transcripts were more abundant in the lungs of aged cotton rats.
The present study reports an age-related delay in the pulmonary cytokine response to RSV and an imbalance in chemokine production with respect to age and underscores different components of RSV pathogenesis with respect to their molecular signature.
The Journal of Infectious Diseases 03/2007; 195(4):511-8. · 6.41 Impact Factor
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ABSTRACT: Mx proteins belong to the superfamily of large GTPases with antiviral activity against a wide range of RNA viruses. In vivo, the expression of Mx genes is tightly regulated by the presence of type I interferons (IFNs), and their induction has been described during several viral infections. However, because of the absence of functional Mx genes in most common laboratory strains of mice, in vivo studies of the expression of these genes during viral infection have been hampered. We have cloned the cDNAs for the cotton rat homologs of Mx1 and Mx2 genes that encode full-length proteins. Mx1 localized in the nucleus, whereas Mx2, as its human homolog MxA, localized in the cytoplasm. The expression of Mx genes in cotton rat cells was induced by type I IFNs (IFN-alpha and IFN-beta) but induced only marginally with type II IFN (IFN-gamma). In vivo, the expression of Mx genes was dramatically augmented in lungs of cotton rats infected with influenza virus. The expression of Mx genes and protein(s) was dependent on the dose of virus and the time postinfection for the analysis. Our data present for the first time a complete analysis of the kinetics of expression of these influenza resistant genes in vivo and underscore the fidelity and sensitivity of the cotton rat model for the study of influenza viral infection.
Journal of Interferon & Cytokine Research 01/2007; 26(12):914-21. · 3.06 Impact Factor
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ABSTRACT: To evaluate cell-mediated immunity in influenza-infected cotton rats, we compared the cellular composition of spleen, mediastinal lymph nodes (MLN) and bronchoalveolar lavage (BAL) after primary and secondary infection. There was an increase in cellularity in the MLN after primary infection that was further expanded upon rechallenge. CD4(+) T cells expanded after primary infection, but there was preferential increase in the number of CD4-negative T cells following secondary challenge. After primary infection, a large proportion of the monocytes and NK cells were present in the BAL while a T cell population dominated after secondary infection. CD4(+) T cells were predominant in this population unless the animals had been challenged with heterosubtypic influenza A virus. These studies are the first to show evidence of a memory T cell response to influenza infection in cotton rats and show quantitative and qualitative differences between the recall response to homosubtypic and heterosubtypic viruses.
Cellular Immunology 11/2006; 243(2):67-74. · 1.97 Impact Factor
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ABSTRACT: Epidemiologic evidence suggests that cross-protective immune responses to influenza A viruses that have different hemagglutinin and neuraminidase subtypes occur in humans. This study characterized this heterosubtypic immunity in cotton rats (Sigmodon hispidus). Animals were infected with influenza A/PR/8/34 (H1N1) or A/Wuhan/359/95 (H3N2), and then challenged with A/Wuhan/359/95(H3N2) virus 4 weeks later. Viral titers, respiratory rates, and pathology of the respiratory tract following primary and secondary infection were compared. Cross-protection from heterosubtypic influenza A challenge in cotton rats was characterized by enhanced viral clearance, protection from tachypnea, a vigorous early cellular recall response, and a reduction in bronchiolar epithelial cell damage. Cross-protection was retained in steroid treated animals, in which the inflammatory recall response was minimal. Identification of the mechanisms that contribute to cross-protection in cotton rats may lead to the development of influenza vaccine strategies that are broadly protective.
Vaccine 10/2006; 24(37-39):6264-71. · 3.77 Impact Factor
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ABSTRACT: Formalin-inactivated respiratory syncytial virus vaccine (FI-RSV) induces a poorly understood immunopathological response that leads to disease enhancement upon RSV infection of vaccinees. In the cotton rat model, inclusion of monophosphoryl lipid A (MPL) in the FI-RSV formulation was found to mitigate the lung pathology associated with vaccine-enhanced disease. Here we report that the protective effect of MPL on FI-RSV vaccine-enhanced disease is associated with a dramatic reduction in levels of Th1- and Th2-type cytokines and chemokines normally elicited in response to RSV challenge. Our data illustrate the complexity of proinflammatory response elicited by FI-RSV vaccination and RSV infection and the potential importance of MPL in modifying this response.
Vaccine 07/2006; 24(23):5027-35. · 3.77 Impact Factor
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ABSTRACT: Human metapneumovirus (hMPV) is a newly described paramyxovirus that is associated with bronchiolitis, pneumonia, and asthma exacerbation. The objective of the present work was to study the duration of pulmonary inflammation and the functional consequences of infection with hMPV by use of a BALB/c mouse model.
BALB/c mice were inoculated with 1 x 10(8) TCID(50) of hMPV type A (C-85473), and viral persistence in lungs was assessed by reverse-transcription polymerase chain reaction for 154 days after infection. Pulmonary inflammation was characterized in histopathological experiments by use of a validated scoring system, and periodic acid-Schiff (PAS) staining of lung sections was used to document increased mucus production, also until day 154. Finally, respiratory functions were analyzed by taking plethysmographic measurements until day 70.
Persistence of viral RNA and significant pulmonary inflammation were noted until day 154, whereas the findings for PAS staining suggested that mucus production was increased only until day 12. Maximal breathing difficulties occurred on day 5, and airway obstruction and hyperresponsiveness were still significant until at least day 70.
Acute hMPV infection in BALB/c mice is associated with long-term pulmonary inflammation that leads to significant obstructive disease of the airways. This animal model will be of a great benefit in the evaluation of novel therapeutic and prophylactic modalities.
The Journal of Infectious Diseases 07/2006; 193(12):1634-42. · 6.41 Impact Factor
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ABSTRACT: Molecular Therapy (2006) 13, S123|[ndash]|S123; doi: 10.1016/j.ymthe.2006.08.379
322. Syngeneic Cotton Rat Cancer Model for Replicating Adenoviral Vectors
Jason C. Steel1, Brian J. Morrison1, Poonam Mannan1, Gregory A. Prince2, Kevin C. Yim2, Brian K. Miles2, Oliver Wildner3 and John C. Morris11Cancer Gene Therapy Section, Metabolism Branch, NCI, Bethesda, MD2Virion Systems, Rockville, MD3Ruhr University Bochum, Germany
Molecular Therapy 04/2006; · 6.87 Impact Factor
