1,669 research outputs found

    Regulation of ige antibody production by serum molecules. III. Induction of suppressive activity by allogeneic lymphoid cell interactions and suppression of IgE synthesis by the allogeneic effect

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    Antibody responses of the IgE class are, like other immunoglobulin classes, regulated by a finely-tuned network of complex cellular and molecular interactions (1). Previous studies conducted in our laboratory (2, 3) have provided new insights into the differences in control mechanisms that result in individuals manifesting either the high (allergic) or low (nonallergic) IgE responder phenotype. These experiments have shown that certain manipulations (i.e. low dose X-irradiation) convert normally low responder mice to high IgE responders, apparently by diminishing a suppressor T-cell mechanism which normally dampens, rather selectively, IgE antibody production in such individuals. Similar findings have been made by Watanabe et al. (4). Recently, we have been studying the types of manipulations that could reverse the high IgE responsive state back to a low one. These studies (2, 3, 5, 6) have demonstrated that the high IgE responses induced in low responder mice can be substantially diminished, and even abolished, by passively transfusing serum or ascetic fluid from donor mice previously inoculated with mycobacterial-containing complete Freund's adjuvant (CFA). Because the suppressive activity of CFA-immune serum or ascitic fluid is so highly selective for IgE antibody production, we have recently termed these serum substances suppressive factors of allergy (SFA) (2, 3). The present study was undertaken to determine whether alternative means, particularly those that avoid administration of CFA, could be devised for the induction of SFA. Herein, we report the effectiveness of allogeneic lymphoid cell interactions in inducing SFA, both in vivo and in vitro, as well as the potent suppressive effects of an in vivo allogeneic effect on irradiation enhanced IgE antibody production in low responder mice

    The clustering of high-redshift galaxies in the cold dark matter scenario

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    We investigate the clustering of high-redshift galaxies in five variants of the cold dark matter (CDM) scenario, using hydrodynamic cosmological simulations that resolve the formation of systems with circular velocities vc ≥ 100 km s-1 (Ω = 1) or vc ≥ 70 km s-1 (Ω = 0.4). Although the five models differ in their cosmological parameters and in the shapes and amplitudes of their mass power spectra, they predict remarkably similar galaxy clustering at z = 2, 3, and 4. The galaxy correlation functions show almost no evolution over this redshift range, even though the mass correlation functions grow steadily in time. Despite the fairly low circular velocity threshold of the simulations, the high-redshift galaxies are usually highly biased tracers of the underlying mass distribution; the bias factor evolves with redshift and varies from model to model. Predicted correlation lengths for the resolved galaxy population are 2-3 h-1 Mpc (comoving) at z = 3. More massive galaxies tend to be more strongly clustered. These CDM models have no difficulty in explaining the strong observed clustering of Lyman-break galaxies, and some may even predict excessive clustering. Because the effects of bias obscure differences in mass clustering, it appears that Lyman-break galaxy clustering will not be a good test of cosmological models but will instead provide a tool for constraining the physics of galaxy formation

    Cell interactions between histoincompatible T and B lymphocytes. VII. Cooperative responses between lymphocytes are controlled by genes in the I region of the H-2 complex

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    The results of this study provide compelling evidence for the existence of the gene or genes controlling optimal T-B-cell cooperative interactions in the designated I region of the H-2 gene complex. Previously, we have speculated that the relevant gene(s) involved may well be located in this region based on several observations from our earlier work in this area (3, 5, 6). Thus, in the preceding paper, we showed that T and B cells from B10.BR and A strain mice developed effective cooperative interactions in vitro to DNP-KLH in a system identical to the one reported herein. Since these mice differ for genes in the S and D regions of H-2 but are identical for K and I region genes, we were able to localize the critical genes to the K-end of H-2

    Constraints on cosmological parameters from the Ly alpha forest power spectrum and COBE DMR

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    We combine COBE DMR measurements of cosmic microwave background (CMB) anisotropy with a recent measurement of the mass power spectrum at redshift z = 2.5 from Lyα forest data to derive constraints on cosmological parameters and test the inflationary cold dark matter (CDM) scenario of structure formation. By treating the inflationary spectral index n as a free parameter, we are able to find successful fits to the COBE and Lyα forest constraints in Ωm = 1 models with and without massive neutrinos and in low-Ωm models with and without a cosmological constant. Within each class of model, the combination of COBE and the Lyα forest P(k) constrains a parameter combination of the form ΩmhαnβΩ, with different indices for each case. This new constraint breaks some of the degeneracies in cosmological parameter determinations from other measurements of large-scale structure and CMB anisotropy. The Lyα forest P(k) provides the first measurement of the slope of the linear mass power spectrum on ~Mpc scales, ν = -2.25 ± 0.18, and it confirms a basic prediction of the inflationary CDM scenario: an approximately scale invariant spectrum of primeval fluctuations (n 1) modulated by a transfer function that bends P(k) toward kn-4 on small scales. Considering additional observational data, we find that COBE-normalized, Ωm = 1 models that match the Lyα forest P(k) do not match the observed masses of rich galaxy clusters, and that low-Ωm models with a cosmological constant provide the best overall fit to the available data, even without the direct evidence for cosmic acceleration from Type Ia supernovae. With our fiducial parameter choices, the flat, low-Ωm models that match COBE and the Lyα forest P(k) also match recent measurements of small-scale CMB anisotropy. Modest improvements in the Lyα forest P(k) measurement could greatly restrict the allowable region of parameter space for CDM models, constrain the contribution of tensor fluctuations to CMB anisotropy, and achieve a more stringent test of the current consensus model of structure formation
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