Role of host cellular proteases in the pathogenesis of influenza and influenza-induced multiple organ failure

Kido, Hiroshi; Okumura, Yuushi; Takahashi, Eiki; Pan, Huitang; Wang, Siye; Yao, Dengbing; Yao, Min; Chida, Junji; Yano, Mihiro

doi:10.1016/j.bbapap.2011.07.001

Cited by 120 publications

(120 citation statements)

References 57 publications

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“…Furthermore, H5N1 was able to spread efficiently to nonrespiratory tissues, such as the brain and kidney, while H7N9 was only transiently detected in these tissues, if at all. Highly pathogenic H5N1 viruses possess a multibasic cleavage site and are able to utilize ubiquitous cellular proteases such as furin, which accounts for an efficient spread throughout the alveolar space leading to the systemic spread seen with H5N1 viruses (27). However, H7N9 viruses were able to spread efficiently throughout the alveoli at later points in infection.…”

Section: Discussionmentioning

confidence: 97%

Human H7N9 and H5N1 Influenza Viruses Differ in Induction of Cytokines and Tissue Tropism

Meliopoulos

Karlsson

Kercher

et al. 2014

J Virol

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Since emerging in 2013, the avian-origin H7N9 influenza viruses have resulted in over 400 human infections, leading to 115 deaths to date. Although the epidemiology differs from human highly pathogenic avian H5N1 influenza virus infections, there is a similar rapid progression to acute respiratory distress syndrome. The aim of these studies was to compare the pathological and immunological characteristics of a panel of human H7N9 and H5N1 viruses in vitro and in vivo. Although there were similarities between particular H5N1 and H7N9 viruses, including association between lethal disease and spread to the alveolar spaces and kidney, there were also strain-specific differences. Both H5N1 and H7N9 viruses are capable of causing lethal infections, with mortality correlating most strongly with wider distribution of viral antigen in the lungs, rather than with traditional measures of virus titer and host responses. Strain-specific differences included hypercytokinemia in H5N1 infections that was not seen with the H7N9 infections regardless of lethality. Conversely, H7N9 viruses showed a greater tropism for respiratory epithelium covering nasal passages and nasopharynx-associated lymphoid tissue than H5N1 viruses, which may explain the enhanced transmission in ferret models. Overall, these studies highlight some distinctive properties of H5N1 and H7N9 viruses in different in vitro and in vivo models. IMPORTANCEThe novel avian-origin H7N9 pandemic represents a serious threat to public health. The ability of H7N9 to cause serious lung pathology, leading in some cases to the development of acute respiratory distress syndrome, is of particular concern. Initial reports of H7N9 infection compared them to infections caused by highly pathogenic avian (HPAI) H5N1 viruses. Thus, it is of critical importance to understand the pathology and immunological response to infection with H7N9 compared to HPAI H5N1 viruses. We compared these responses in both in vitro and in vivo models, and found that H5N1 and H7N9 infections exhibit distinct pathological, immunological, and tissue tropism differences that could explain differences in clinical disease and viral transmission.

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Section: Discussionmentioning

confidence: 97%

Human H7N9 and H5N1 Influenza Viruses Differ in Induction of Cytokines and Tissue Tropism

Meliopoulos

Karlsson

Kercher

et al. 2014

J Virol

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“…The impact of cleavage on signaling activation is a matter of open discussion: while it was seen by some laboratories to be a prerequisite for delivery of receptors to the cell surface [84,85], other groups have shown that Notch receptors which are defective for S1 cleavage are normally exposed to the cell surface, but fail in ligand-mediated activation of canonical Notch signaling [86,87]; these latter data support the hypothesis that dissociation of NECD from NTMD (by endocytosis, see later) may be a prerequisite for S2 proteolysis. Notably, S1 cleavage-defective Notch receptors exhibit little change in their crystal and NMR structure in comparison with wild-type receptors [88]; this is in contrast to what happens with some viruses (including avian influenza virus, HIV-1, measles and papilloma virus [89][90][91][92]) in which furin cleavage induces major conformational changes leading to protein activation (reviewed in [93]). …”

Section: Domain Structure Of Notch Componentsmentioning

confidence: 73%

Endocytosis in Notch Signaling Activation

Sala¹,

Ruggiero²,

Giacomo³

et al. 2012

Molecular Regulation of Endocytosis

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“…The inflammatory response also affected cell adhesion, vascular permeability, apoptosis, and mitochondrial reactive oxygen species, which could progress to vascular dysfunction and multi-organ failure. Studies have shown that influenza virus infection significantly upregulates the expression of cellular trypsins and matrix metalloproteinase-9 in various organs and vascular endothelial cells (30). We propose that in addition to direct damage to alveolar epithelial cells, cytokine storm-induced endothelial cell damage and successive vascular hyperpermeability play major roles in the pathogenesis of severe influenza virus-induced pneumonia.…”

Section: Discussionmentioning

confidence: 99%

“…Influenza virus infection caused marked increases in the levels of pro-inflammatory cytokines, tumor necrosis factor-α, interleukin (IL)-6, and IL-1β (cytokine storm) (30). The inflammatory response also affected cell adhesion, vascular permeability, apoptosis, and mitochondrial reactive oxygen species, which could progress to vascular dysfunction and multi-organ failure.…”

Section: Discussionmentioning

confidence: 99%

Clinicopathological Findings of Four Cases of Pure Influenza Virus A Pneumonia

Fujita

Ohtsuki

Higa³

et al. 2014

Intern. Med.

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Objective The purpose of this study was to perform clinicopathological evaluations of patients with pure influenza A virus pneumonia. Methods We performed clinicopathological analyses of four cases of pure influenza A virus pneumonia. Patients Among the four cases, three were caused by the pandemic (H1N1) 2009 virus. Three patients were analyzed during autopsy, and one underwent transbronchial lung biopsy. Results We suggest that the interval between influenza virus A pneumonia onset and our analysis affected the pathological findings. Diffuse alveolar damage was observed during the acute phase. After ten days, organizing pneumonia and marked proliferation of premature type II alveolar epithelium were observed. Clinically, intra-alveolar hemorrhage was observed in two patients. Pathologically, hyaline membrane formation and intra-alveolar hemorrhage were observed in all cases. Conclusion Severe epithelial damage was determined as the main mechanism of respiratory failure caused by influenza A virus pneumonia.

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Role of host cellular proteases in the pathogenesis of influenza and influenza-induced multiple organ failure

Cited by 120 publications

References 57 publications

Human H7N9 and H5N1 Influenza Viruses Differ in Induction of Cytokines and Tissue Tropism

Human H7N9 and H5N1 Influenza Viruses Differ in Induction of Cytokines and Tissue Tropism

Endocytosis in Notch Signaling Activation

Clinicopathological Findings of Four Cases of Pure Influenza Virus A Pneumonia

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