Refine
Year of publication
Document Type
- Article (51)
- Conference Proceeding (9)
- Review (2)
Has Fulltext
- yes (62)
Is part of the Bibliography
- no (62)
Keywords
- ELISA (3)
- Antikörpertest (2)
- HCMV (2)
- IFT (2)
- Impfraten (2)
- Labordiagnostik (2)
- Medizinstudenten (2)
- Myokarditis (2)
- Nachweismethoden (2)
- PCR (2)
Institute
- Medizin (61)
- Biowissenschaften (1)
- Erziehungswissenschaften (1)
Insgesamt 311 Stämme gramnegativer harnwegspathogener Enterobacteriaceen und Nonfermenter, davon 200 Isolate aus frischem Urin der täglichen Routine und 111 ausgewählte, bezüglich ihrer Identifikation problematische Keime aus der Stammsammlung des Zentrums der Hygiene, Frankfurt/Main, wurden mit den Systemen RAS-ID-Gramne9, und API 20 E bzw. NE, vergleichend getestet. Das RAS~ID-Gramne9-System benutzt 10 biochemische Reaktionen zur Identifizierung gramnegativer Bakterien sowie 10 Chemotherapeutika zur Resistenzbestimmung. Von den 200 Routinestämmen zeigten 196 (98%), von den 111 Stämmen aus der Stammsammlung 98 (88,3 %) Übereinstimmung. Die gute Übereinstimmung und die schnelle und einfache Handhabung läßt das RAS-ID-Gramne9-System für die Identifizierung harnwegs-pathogener Routinekeime als kostengünstige Alternative zu anderen aufwendigeren Identifizierungssystemen erscheinen.
Prolonged treatment of leukemic cells with chemotherapeutic agents frequently results in development of drug resistance. Moreover, selection of drug-resistant cell populations may be associated with changes in malignant properties such as proliferation rate, invasiveness, and immunogenicity. In the present study, the sensitivity of cytarabine (1-β-d-arabinofuranosylcytosine, araC)-resistant and parental human leukemic cell lines (T-lymphoid H9 and acute T-lymphoblastic leukemia Molt-4) to natural killer (NK) cell-mediated killing was investigated. The results obtained demonstrate that araC-resistant H9 and Molt-4 (H9rARAC100 and Molt-4rARAC100) cell lines are more sensitive to NK cell-mediated lysis than their respective parental cell lines. This increased sensitivity was associated with a higher surface expression of ligands for the NK cell-activating receptor NKG2D, notably UL16 binding protein-2 (ULBP-2) and ULBP-3 in H9rARAC100 and Molt-4rARAC100 cell lines. Blocking ULBP-2 and ULBP-3 or NKG2D with monoclonal antibody completely abrogated NK cell lysis. Constitutive phosphorylated extracellular signal-regulated kinase (ERK) but not pAKT was higher in araC-resistant cells than in parental cell lines. Inhibition of ERK using ERK inhibitor PD98059 decreased both ULBP-2/ULBP-3 expression and NK cell cytotoxicity. Furthermore, overexpression of constitutively active ERK in H9 parental cells resulted in increased ULBP-2/ULBP-3 expression and enhanced NK cell lysis. These results demonstrate that increased sensitivity of araC-resistant leukemic cells to NK cell lysis is caused by higher NKG2D ligand expression, resulting from more active ERK signaling pathway.