47 research outputs found
Estrogen receptor beta impacts hormone-induced alternative mRNA splicing in breast cancer cells
Skin secretion of Siphonops paulensis (Gymnophiona, Amphibia) forms voltage-dependent ionic channels in lipid membranes
Phenotyping and target expression profiling of CD34+/CD38- and CD34+/CD38+ stem- and progenitor cells in acute lymphoblastic leukemia
Leukemic stem cells (LSCs) are an emerging target of curative anti-leukemia therapy. In acute lymphoblastic leukemia (ALL), LSCs frequently express CD34 and often lack CD38. However, little is known about markers and targets expressed in ALL LSCs. We have examined marker- and target expression profiles in CD34+/CD38- LSCs in patients with Ph+ ALL (n = 22) and Ph- ALL (n = 27) by multi-color flow cytometry and qPCR. ALL LSCs expressed CD19 (B4), CD44 (Pgp-1), CD123 (IL-3RA), and CD184 (CXCR4) in all patients tested. Moreover, in various subgroups of patients, LSCs also displayed CD20 (MS4A1) (10/41 = 24%), CD22 (12/20 = 60%), CD33 (Siglec-3) (20/48 = 42%), CD52 (CAMPATH-1) (17/40 = 43%), IL-1RAP (13/29 = 45%), and/or CD135 (FLT3) (4/20 = 20%). CD25 (IL-2RA) and CD26 (DPPIV) were expressed on LSCs in Ph+ ALL exhibiting BCR/ABL1p210, whereas in Ph+ ALL with BCR/ABL1p190, LSCs variably expressed CD25 but did not express CD26. In Ph- ALL, CD34+/CD38- LSCs expressed IL-1RAP in 6/18 patients (33%), but did not express CD25 or CD26. Normal stem cells stained negative for CD25, CD26 and IL-1RAP, and expressed only low amounts of CD52. In xenotransplantation experiments, CD34+/CD38- and CD34+/CD38+ cells engrafted NSG mice after 12-20 weeks, and targeting with antibodies against CD33 and CD52 resulted in reduced engraftment. Together, LSCs in Ph+ and Ph- ALL display unique marker- and target expression profiles. In Ph+ ALL with BCR/ABL1p210, the LSC-phenotype closely resembles the marker-profile of CD34+/CD38- LSCs in chronic myeloid leukemia, confirming the close biologic relationship of these neoplasms. Targeting of LSCs with specific antibodies or related immunotherapies may facilitate LSC eradication in ALL
State-dependent diffusion coefficients and free energies for nucleation processes from Bayesian trajectory analysis
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Revisiting the π → π* transition of the nitrite ion at the air/water interface: A combined experimental and theoretical study
Broadband deep ultraviolet electronic sum frequency generation spectroscopy allows measurement of electronic |χ(2)|2-spectra at aqueous interfaces, providing considerable improvement over deep ultraviolet electronic second harmonic generation spectroscopy that yields error-prone, pointwise spectra. Reexamination of the π → π* transition of nitrite at the air/water interface reveals that the interfacial |χ(2)|2-spectrum is strikingly similar to the bulk absorption spectrum. Molecular dynamics simulations and SOS-CIS(D0) electronic structure calculations provide no evidence for the previously reported contact ion pair-induced red-shift of the π → π* transition at the air/water interface. Our results thus revise the previous description for nitrite interfacial adsorption as a contact ion pair
Die Rolle der Aerosole und der gasförmigen Beimengungen der Luft im Spurenstoffhaushalt der Troposphäre
Loss of NKG2D in murine NK cells leads to increased perforin production upon long‐term stimulation with IL‐2
NK cells are innate lymphocytes responsible for lysis of pathogen-infected and transformed cells. One of the major activating receptors required for target cell recognition is
the NK group 2D (NKG2D) receptor. Numerous reports show the necessity of NKG2D for
effective tumor immune surveillance. Further studies identified NKG2D as a key element
allowing tumor immune escape. We here use a mouse model with restricted deletion
of NKG2D in mature NKp46+ cells (NKG2DNK). NKG2DNK NK cells develop normally,
have an unaltered IFN-γ production but kill tumor cell lines expressing NKG2D ligands (NKG2DLs) less efficiently. However, upon long-term stimulation with IL-2, NKG2Ddeficient NK cells show increased levels of the lytic molecule perforin. Thus, our findings
demonstrate a dual function of NKG2D for NK cell cytotoxicity; while NKG2D is a crucial
trigger for cytotoxicity of tumor cells expressing activating ligands it is also capable to
limit perforin production in IL-2 activated NK cells