Epithelial cells lining salivary gland ducts are early target cells of severe acute respiratory syndrome coronavirus infection in the upper respiratory tracts of rhesus macaques.

The shedding of severe acute respiratory syndrome coronavirus (SARS-CoV) into saliva droplets plays a critical role in viral transmission. The source of high viral loads in saliva, however, remains elusive. Here we investigate the early target cells of infection in the entire array of respiratory tissues in Chinese macaques after intranasal inoculations with a single-cycle pseudotyped virus and a pathogenic SARS-CoV. We found that angiotensin-converting enzyme 2-positive (ACE2(+)) cells were widely distributed in the upper respiratory tract, and ACE2(+) epithelial cells lining salivary gland ducts were the early target cells productively infected. Our findings also have implications for SARS-CoV early diagnosis and prevention.

[Effects of HCMV on phenotypes of parotid duct epithelial cells and its mechanisms].

OBJECTIVE: To investigate the effects of HCMV infection on phenotypes of parotid duct epithelial cells and relative mechanisms. METHODS: The expressions of immediate early antigen of HCMV, pan cytokeratin and cathepsin D etc. were detected by immunohistochemical staining in tissues of parotid cytomegalic inclusion disease. RESULTS: Cytokeratin which acts as an epithelial marker became negative while staining of Cathepsin D was intensified in parotid duct epithelial cells after infected by HCMV. CONCLUSION: It demonstrated that cytokeratin was lost through over-expression of Cathepsin D in parotid duct epithelial cells infected by HCMV.

[Human cytomegalovirus inhibits proliferation of duct epithelial cells of human salivary gland].

OBJECTIVE: To investigate the effects of human cytomegalovirus (HCMV) on the proliferation of duct epithelial cells of human salivary gland (HSG). METHODS: The expression of proliferating cell nuclear antigen (PCNA) and p53 were studied in 11 cases of parotid cytomegalic inclusive disease (PCID) using immunohistochemical staining method. The effects of human cytomegalovirus (HCMV) on the proliferation of HSG were investigated by MTT method in vitro. The expression of PCNA in HSG infected by HCMV was examined using immunocytochemical staining and Western blotting. RESULTS: PCNA was expressed weakly in most of megalic inclusion cells which were positive for HCMV, while all the megalic inclusion cells were p53 negative in all 11 cases of PCID. HCMV inhibited proliferation of HSG in vitro in a time dependent and dose dependent manner. Down-regulation of PCNA was shown in infected cells. CONCLUSION: HCMV inhibits proliferation of HSG and down-regulation of PCNA may be an expression of the inhibition.

Condyloma acuminatum and condyloma-like lesions of the oral cavity: a study of 11 cases with an intraductal component.

AIMS: We studied the clinicopathological features of 11 condyloma and condyloma-like lesions of the oral cavity with an unusual mixed pattern of exophytic and intraductal growth. The latter manifest as involvement of minor salivary gland ducts by the proliferative squamous lesions. This pattern of ductal involvement has not been previously described in oral condyloma. METHODS AND RESULTS: The clinical history was available for nine patients ranging in age from 17 to 73 years. Two were female and seven male. The buccal mucosa (five cases) was the most common site of occurrence, followed by the floor of mouth (two cases), lingual frenum (two cases), and hard palate (one case). All lesions exhibited exophytic and intraductal growth. The latter manifested itself as extension of the lesions into the excretory ducts of minor salivary glands. Underlying minor salivary glands, present in many of the excisional biopsy specimens, typically showed changes of obstructive atrophy. The exophytic components of all cases exhibited some degree of parakeratosis, and cryptic invaginations of parakeratin were typically present. Koilocytes were present in seven lesions and were equivocal in four. Mucous cells were present in the intraductal component of all cases and the intraductal component was never keratinized, but often papillary. A mild stromal-based, lymphocytic host response was present in three. A variably prominent neutrophilic infiltrate was present in the exophytic component of eight. Dysplasia was not present in any case. Five of 11 cases were positive with anti-human papillomavirus (HPV) and two of 11 cases were positive for in-situ hybridization probes directed against HPV 6/11. All cases were negative for HPV 16/18 and 13/33/35. CONCLUSIONS: Oral condyloma acuminatum may involve the excretory ducts of minor salivary glands. The diagnosis of oral condyloma acuminatum is difficult, as these lesions share considerable histological overlap with squamous papilloma. Finally, the relationship between these two lesions is incompletely understood.

Histopathological analysis and demonstration of EBV and HIV p-24 antigen but not CMV expression in labial minor salivary glands of HIV patients affected by diffuse infiltrative lymphocytosis syndrome.

BACKGROUND: The diffuse infiltrative lymphocytosis syndrome (DILS) in HIV patients is characterized by the persistence of CD8-circulating lymphocytes and lymphocytic infiltration, predominantly in salivary glands. METHODS: We examined seven HIV-positive patients with bilateral parotid enlargement and sicca symptoms. Minor labial salivary gland biopsies were performed in all patients and submitted for histopathological analysis and immunohistochemistry for CD4, CD8, cytomegalovirus (CMV), LMP-EBV protein, and HIV p-24 protein. RESULTS: In all cases, lymphocytic infiltration of the minor salivary glands, mainly periductal, was found. Acinar atrophy, ductal ectasia, and mild to moderate fibrosis were also observed. We noticed strong immunohistochemical reaction for LMP-EBV and p-24 proteins in ductal cells in all cases, while staining for CMV was consistently negative. The lymphocytes were positive for CD8, but consistently negative for CD4. CONCLUSIONS: A role of Epstein-Barr virus (EBV) and HIV, but not CMV, in the pathogenesis of DILS, is suggested by our immunohistochemical findings.

Gene transfer mediated by different viral vectors following direct cannulation of mouse submandibular salivary glands.

The salivary gland has been suggested as an accessible organ for gene transfer to express recombinant proteins locally in the saliva, as well as for secretion to the blood circulation. The aim of this study was to evaluate the efficiency of gene transfer to salivary glands using different viral vectors: adenovirus, vaccinia, herpes simplex type 1 (HSV), and two retroviral vectors (murine leukemia virus (MuLV) and lentivirus). We show, by in situ staining and beta-galactosidase reporter activity assay, that the adenoviral and vaccinia vectors were able to deliver the reporter gene efficiently to acinar and duct cells. The HSV vector was less efficient and infected only the acinar cells. The lentiviral vector infected acinar and duct cells, but at a relatively low efficiency. The MuLV vector did not infect the salivary gland unless cell proliferation was induced. Host immune responses to viral infection, inflammation, apoptosis and lymphocyte infiltration, in the transduced glands, were assessed. The DNA viral vectors induced local lymphocyte infiltration and apoptosis. In contrast, the retroviral vectors did not induce an immune response. Our results describe the outcome of salivary gland infection with each of the five different viral vectors and indicate their advantages and limitations for transferring genes to the salivary glands.

Detection of mumps virus in clinical specimens by rapid centrifugation culture and conventional tube cell culture.

Conventional tube cell culture was compared with a 2 day and 5 day spin-amplified shell vial indirect immunofluorescence assay for the detection of mumps virus in swabs from the area of Stensen's duct. The sensitivity and specificity of the shell vial assay were 95.9 and 100%, respectively. The shell vial detected 66.3% of the positive cultures within 2 days of inoculation while the first positive results were available by conventional tube cell culture after 3 days (1.6%) reaching 72.4% of all culture positive specimens after 7 days. These data suggest that a centrifugation shell vial indirect immunofluorescence assay may be useful for rapid detection of mumps virus in clinical specimens.

Detection of human herpesvirus 7 in salivary glands.

The prevalence and cellular distribution of human herpesvirus 7 (HHV-7) in archival labial salivary glands was analysed for virus-specific DNA sequences by polymerase chain reaction (PCR) and in situ hybridization signals. In addition, the cellular expression of HHV-7-encoded protein was detected by immunohistochemical staining with a virus-specific monoclonal antibody. Eleven of 20 samples were positive for the HHV-7 DNA sequence by PCR. Eighteen of 20 tissues analysed by in situ hybridization showed signals in ductal, serous and mucous cells. Some nuclei of these cells and also the myoepithelial population were positive. In immunolocalization studies, all 20 salivary glands consistently showed HHV-7-expressed protein in the cytoplasm of ductal cuboidal and columnar cells. The protein was also found in the cytoplasm of mucous and serous acinar cells that were immunopositive for HHV-7. The observations are consistent with the suggestion that the labial salivary gland is a site for virus replication, potential persistence and a source of infective HHV-7 in saliva.