The spike (S) protein of the severe acute respiratory syndrome coronavirus (SARS-CoV) can be proteolytically activated by cathepsins B and L upon viral uptake into target cell endosomes. In contrast, it is largely unknown whether host cell proteases located in the secretory pathway of infected cells and/or on the surface of target cells can cleave SARS S. We along with others could previously show that the type II transmembrane protease TMPRSS2 activates the influenza virus hemagglutinin and the human metapneumovirus F protein by cleavage. Here, we assessed whether SARS S is proteolytically processed by TMPRSS2.
Western blot analysis revealed that SARS S was cleaved into several fragments upon coexpression of TMPRSS2 (cis-cleavage) and upon contact between SARS S-expressing cells and TMPRSS2-positive cells (trans-cleavage). cis-cleavage resulted in release of SARS S fragments into the cellular supernatant and in inhibition of antibody-mediated neutralization, most likely because SARS S fragments function as antibody decoys. trans-cleavage activated SARS S on effector cells for fusion with target cells and allowed efficient SARS S-driven viral entry into targetstreated with a lysosomotropic agent or a cathepsin inhibitor. Finally, ACE2, the cellular receptor for SARSCoV, and TMPRSS2 were found to be coexpressed by type II pneumocytes, which represent important viral target cells, suggesting that SARS S is cleaved by TMPRSS2 in the lung of SARS-CoV-infected individuals. In summary, we show that TMPRSS2 might promote viral spread and pathogenesis by diminishing viral recognition by neutralizing antibodies and by activating SARS S for cell-cell and virus-cell fusion.
Proteolysis of influenza virus hemagglutinin by host cell proteases is essential for viral infectivity, but the proteases responsible are not well defined. Recently, we showed that engineered expression of the type II transmembrane serine proteases (TTSPs) TMPRSS2 and TMPRSS4 allows hemagglutinin (HA) cleavage. Here we analyzed whether TMPRSS2 and TMPRSS4 are expressed in influenza virus target cells and support viral spread in the absence of exogenously added protease (trypsin). We found that transient expression of TMPRSS2 and TMPRSS4 resulted in HA cleavage and trypsin-independent viral spread. Endogenous expression of TMPRSS2 and TMPRSS4 in cell lines correlated with the ability to support the spread of influenza virus in the absence of trypsin, indicating that these proteases might activate influenza virus in naturally permissive cells. Indeed, RNA interference (RNAi)-mediated knockdown of both TMPRSS2 and TMPRSS4 in Caco-2 cells, which released fully infectious virus without trypsin treatment, markedly reduced the spread of influenza virus, demonstrating that these proteases were responsible for efficient proteolytic activation of HA in this cell line. Finally, TMPRSS2 was found to be coexpressed with the major receptor determinant of human influenza viruses, 2,6-linked sialic acids, in human alveolar epithelium, indicating that viral target cells in the human respiratory tract express TMPRSS2. Collectively, our results point toward an important role for TMPRSS2 and possibly TMPRSS4 in influenza virus replication and highlight the former protease as a potential therapeutic target.
Histologic sections of 89 hemangiomas of skeletal muscle in the files of the Armed Forces Institute of Pathology were reviewed and subclassified into small‐vessel, large‐vessel, and mixed types. The histologic picture of the small‐vessel variety of hemangioma was often alarming and, in some cases, led to an erroneous diagnosis of malignancy. This variety was most common in the 20‐ to 29‐year age group, had a relatively short clinical history, tended to be smaller in size than the other 2 varieties, and usually involved the trunk and upper parts of the body. There was local recurrence in 7 (20%) of the 36 patients followed. The large‐vessel type had a similar age incidence, but the median duration of clinical history was longer and the tumors tended to be larger than those of the small‐vessel type. The lower limb was the most common location, and only 2 (9%) of the 22 cases followed recurred. The mixed type usually affected patients in the second or third decade; the size of the tumors and the median duration of clinical history were similar to those of the large‐vessel hemangiomas, and the trunk was the most common location. Local recurrences were seen in 5 (28%) of the 18 patients followed. Altogether, follow‐up information was available in 76 cases, of which 14 (18%) recurred locally, 5 (7%) recurred more than once, but none metastasized.
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