We investigate spontaneous symmetry breaking in a conformally invariant
gravitational model. In particular, we use a conformally invariant scalar
tensor theory as the vacuum sector of a gravitational model to examine the idea
that gravitational coupling may be the result of a spontaneous symmetry
breaking. In this model matter is taken to be coupled with a metric which is
different but conformally related to the metric appearing explicitly in the
vacuum sector. We show that after the spontaneous symmetry breaking the
resulting theory is consistent with Mach's principle in the sense that inertial
masses of particles have variable configurations in a cosmological context.
Moreover, our analysis allows to construct a mechanism in which the resulting
large vacuum energy density relaxes during evolution of the universe.Comment: 9 pages, no figure

de Jonge, W.

Kwikkers, K.

Lamers, M.

Lamers, W.

Mebius, R.

Nolte, M.

Ruijter, J.

te Velde, A.

van Deventer, S.

English

arXiv

de Jonge, W.J.

Kwikkers, K.L.

te Velde, A.A.

van Deventer, S.J.H.

Nolte, M.A.

Mebius, R.E.

Ruijter, J.M.

Lamers, M.C.

Lamers, W.H.

NARCIS 

Arginine deficiency affects early B cell maturation and lymphoid organ development in transgenic mice

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Arginine deficiency affects early B cell maturation and lymphoid organ development in transgenic mice. de Jonge WJ, Kwikkers KL, te Velde AA, van Deventer SJ, Nolte MA, Mebius RE, Ruijter JM, Lamers MC, Lamers WH. Department of Anatomy and Embryology, University of Amsterdam, The Netherlands. Apart from its role in the synthesis of protein and nitric oxide (NO), and in ammonia detoxification, the amino acid arginine exerts an immunosupportive function. We have studied the role of arginine in immune defense mechanisms in the developing postnatal immune system. In suckling mice, arginine is produced in the small intestine. In F/A-2(+/+) transgenic mice, which overexpress arginase in their enterocytes, circulating and tissue arginine concentrations are reduced to 30-35% of controls. In these mice, the development and composition of the T cell compartment did not reveal abnormalities. However, in peripheral lymphoid organs and the small intestine, B cell cellularity and the number and size of Peyer's patches were drastically reduced, and serum IgM levels were significantly decreased. These phenotypes could be traced to an impaired transition from the pro- to pre-B cell stage in the bone marrow. Cytokine receptor levels in the bone marrow were normal. The development of the few peripheral B cells and their proliferative response after in vitro stimulation was normal. The disturbance in B cell maturation was dependent on decreased arginine levels, as this phenotype disappeared upon arginine supplementation and was not seen in NO synthase- or ornithine transcarbamoylase-deficient mice. We conclude that arginine deficiency impairs early B cell maturatio

Mach's Principle and Model for a Broken Symmetric Theory of Gravity

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