Two-Particle Interference with Double Twin-Atom Beams.

We demonstrate a source for correlated pairs of atoms characterized by two opposite momenta and two spatial modes forming a Bell state only involving external degrees of freedom. We characterize the state of the emitted atom beams by observing strong number squeezing up to -10 dB in the correlated two-particle modes of emission. We furthermore demonstrate genuine two-particle interference in the normalized second-order correlation function g^{(2)} relative to the emitted atoms.

Near-concentric Fabry-Pérot cavity for continuous-wave laser control of electron waves.

Manipulating free-space electron wave functions with laser fields can bring about new electron-optical elements for transmission electron microscopy (TEM). In particular, a Zernike phase plate would enable high-contrast TEM imaging of soft matter, leading to new opportunities in structural biology and materials science. A Zernike phase plate can be implemented using a tight, intense continuous laser focus that shifts the phase of the electron wave by the ponderomotive potential. Here, we use a near-concentric cavity to focus 7.5 kW of continuous-wave circulating laser power at 1064 nm into a 7 µm mode waist, achieving a record continuous laser intensity of 40 GW/cm2. Such parameters are sufficient to impart a phase shift of 1 rad to a 10 keV electron beam, or 0.16 rad to a 300 keV beam. Our numerical simulations confirm that the standing-wave phase shift profile imprinted on the electron wave by the intra-cavity field can serve as a nearly ideal Zernike phase plate.

ASTROPHYSICS. Atom-interferometry constraints on dark energy.

If dark energy, which drives the accelerated expansion of the universe, consists of a light scalar field, it might be detectable as a "fifth force" between normal-matter objects, in potential conflict with precision tests of gravity. Chameleon fields and other theories with screening mechanisms, however, can evade these tests by suppressing the forces in regions of high density, such as the laboratory. Using a cesium matter-wave interferometer near a spherical mass in an ultrahigh-vacuum chamber, we reduced the screening mechanism by probing the field with individual atoms rather than with bulk matter. We thereby constrained a wide class of dark energy theories, including a range of chameleon and other theories that reproduce the observed cosmic acceleration.

The role of interleukin-1ß in human trophoblast motility.

The pleiotropic cytokine interleukin-1ß (IL-1ß) can promote physiological cell migration, as well as cancer cell invasion and metastasis. Its role in human trophoblast invasion, however, has not been satisfactorily answered since direct, indirect as well as no effects on trophoblast motility have been published. Therefore, the role of IL-1ß has been re-evaluated by exclusively using human primary trophoblast model systems. Immunofluorescence of first trimester placentae indicated IL-1 receptor 1 (IL-1R1) protein expression in first trimester villous cytotrophoblasts (vCTB) and extravillous trophoblasts (EVT). The latter expressed higher mRNA levels of the receptor as shown by comparative gene chip data of vCTB and EVT. Similarly, Western blot analyses and immunofluorescence revealed a time- and differentiation-dependent increase of IL-1R1 in primary EVT seeded on fibronectin. IL-1ß dose-dependently elevated migration of isolated first trimester EVT through fibronectin-coated transwells, which was inhibited in the presence of IL-1R antagonist (IL-1Ra), whereas proliferation of these cells was not affected. Similarly, the interleukin did not alter proliferation of vCTB and cell column trophoblasts in floating villi of early pregnancy, but promoted migration in villous explant cultures seeded on collagen I. Western blot analyses of supernatants of primary EVT and first trimester villous explant cultures revealed IL-1ß induced secretion of urokinase plasminogen activator (uPA), plasminogen activator inhibitor (PAI)-1 and PAI-2, which was diminished upon combined IL-1ß/IL-1Ra treatment. In conclusion, these data suggest that IL-1ß directly promotes trophoblast motility of first trimester EVT involving the uPA/PAI system.

Trophoblast invasion: assessment of cellular models using gene expression signatures.

Invasive, extravillous trophoblasts (EVT) of the human placenta are critically involved in successful pregnancy outcome since they remodel the uterine spiral arteries to increase blood flow and oxygen delivery to the placenta and the developing fetus. To gain more insights into their biological role different primary cell culture models are commonly utilised. However, access to early placental tissue may be limited and primary trophoblasts rapidly cease proliferation in vitro impairing genetic manipulation. Hence, trophoblastic cell lines have been widely used as surrogates to study EVT function. Although the cell lines share some molecular markers with their primary counterpart, it is unknown to what extent they recapitulate the invasive phenotype of EVT. Therefore, we here report the first thorough GeneChip analyses of SGHPL-5, HTR-8/SVneo, BeWo, JEG-3 and the novel ACH-3P trophoblast cells in comparison to previously analysed primary villous cytotrophoblasts (CTBs) and extravillous trophoblasts (EVTs). Analyses of approximately 14,000 commonly expressed genes revealed that EVTs most closely resemble CTBs with considerable differences to the group of choriocarcinoma cells (JEG-3, BeWo, ACH-3P) and the group of SV40 Large T Antigen-selected cell types (SGHPL-5, HTR-8/SVneo). Similarly, analyses of 912 genes discriminating EVT from CTB, or 370 EVT-specific genes did not unravel a particular cell line with close similarity to any of the primary cell types, although molecular signatures common to EVT and each group of cell lines could be identified. Considering the diversity of mRNA expression patterns it is suggested that molecular studies in trophoblast cell lines require verification of the critical steps in an appropriate primary model system.

Human chorionic gonadotrophin attenuates NF-kappaB activation and cytokine expression of endometriotic stromal cells.

Recently, a clinical study provided evidence that treatment of endometriotic women with human chorionic gonadotrophin (hCG) alleviates disease-related pain and sleeplessness suggesting therapeutic effects of the hormone. Since endometriosis is associated with aberrant concentrations of inflammatory mediators in the peritoneal fluid, we investigated whether hCG may affect cytokine-dependent activation of the key-regulatory transcription factor NF-kappaB and expression of two nuclear factor kappa B (NF-kappaB)-inducible genes, tumour necrosing factor (TNF-alpha) and interleukin (IL)-1beta, in stromal cells isolated from ectopic endometriotic tissues. Electrophoretic mobility shift assay revealed that treatment of these cultures with the urinary preparation hCG-A suppressed TNF-alpha- or IL-1beta-induced NF-kappaB DNA-binding activity, whereas another urinary hCG preparation (hCG-B) was less effective. Recombinant alphahCG or epidermal growth factor (EGF), a contaminant of some urinary hCG preparations, did not alter cytokine-dependent NF-kappaB activation. Immunofluorescene of its p65 subunit revealed that pre-incubation with hCG-A strongly decreased TNF-alpha-dependent nuclear expression of NF-kappaB. Accordingly, hCG-A diminished IL-1beta-induced TNF-alpha transcript levels and protein release measured by quantitative real-time PCR and enzyme-linked immunosorbent assay. The hormone also attenuated TNF-alpha-dependent mRNA expression of IL-1beta. Western blot analyses revealed that hCG-A impaired TNF-alpha-mediated phosphorylation and degradation of the inhibitor IkappaBalpha suggesting that the hormone may reduce nuclear import of NF-kappaB by stabilizing its inhibitor. The data suggest that hCG attenuates inflammation-dependent NF-kappaB activation and cytokine expression that could provide one explanation for the beneficial role of the hormone in endometriotic patients.

Effects of different human chorionic gonadotrophin preparations on trophoblast differentiation.

Recent evidence from the literature suggested that hCG preparations purified from urine of pregnant women, which are widely used in in vitro studies and IVF programs, may contain contaminants such as EGF. To determine the putative biological effects of the contaminating growth factor, we here investigated distinct trophoblast differentiation processes in the presence of various hCG compounds. Western blot analyses indicated that treatment of trophoblastic SGHPL-5 cells and purified term trophoblasts with potentially EGF-contaminated hCG (hCG-A) resulted in auto-phosphorylation of the EGF receptor at tyrosine 1173 whereas supplementation of another urine-purified hCG preparation (hCG-B), recombinant holo-hCG or recombinant alphahCG had no effects. Phosphorylation was specifically blocked by the EGF receptor inhibitor PD153035. Urinary hCG-A was most effective in promoting invasion of SGHPL-5 cells through Matrigel-coated transwells, but increased invasiveness was also observed in the presence of hCG-B or recombinant holo-hCG. Similarly, the extent of syncytialisation of term trophoblasts, quantitated by nuclei in desmoplakin-negative areas, was highest upon addition of hCG-A or recombinant EGF as a control. PD153035 reduced invasion and fusion of trophoblasts supplemented with hCG-A, but did not diminish the effects provoked by hCG-B. In conclusion, the data suggest that the EGF contamination of hCG considerably affects trophoblast function. Experiments using EGF-free hCG preparations demonstrate that the hormone increases trophoblast invasion and syncytialisation.