The tumorigenic phenotype of a mutated form of Fc gamma RIIB1, lacking the ability to generate soluble receptor and allowing a low-level of ligand binding.

Non immunohematopoietic murine tumor cells ectopically expressing Fc gamma RIIB1 (B1) were recently shown to express a higher tumorigenicity phenotype than cells not expressing this receptor. Utilizing a genetic approach we studied the possible contribution of a soluble form of B1 to tumor enhancement. A mutated form of the B1, lacking the cleavage site responsible for the generation of soluble B1 was produced using gene splicing by overlap extension PCR.

Assessment of stimulated and spontaneous adrenocorticotropin secretory dynamics identifies distinct components of cortisol feedback inhibition in healthy humans.

Corticosteroids inhibit ACTH secretion through diverse cellular mechanisms, including direct pituitary and indirect suprapituitary effects. Although exogenous CRH provides a useful assessment of corticotroph function, the suprapituitary component of ACTH regulation has been difficult to assess in humans. Naloxone (NAL) has been reported to stimulate ACTH secretion indirectly through the release of endogenous hypothalamic CRH, suggesting its potential application in the examination of suprapituitary regulation of ACTH secretory dynamics.

Contribution of the intracellular domain of murine Fc-gamma receptor type IIB1 to its tumor-enhancing potential.

We have previously shown that Fc gamma receptor type II B1 (Fc(gamma)RIIB1), when expressed on non-lymphoid tumor cells, significantly enhanced their tumorigenic phenotype. This study elucidates the role of the intracellular domain of Fc(gamma)RIIB1 in the enhancement of the malignant phenotype of polyoma-transformed 3T3 cells. We investigated the tumorigenic potential conferred by different variants of the receptor: Fc(gamma)RIIB1, a full-length receptor (B1) whose intracellular region is encoded by exons 8, 9 and 10; Fc(gamma)RIIB2, a spliced variant (B2) whose cytoplasmic domain comprises exons 9 and 10 and lacks exon 8; and Fc(gamma)RIIB1-CT53, a deleted mutant whose cytoplasmic domain contains the fragment encoded by exon 8 alone.

The murine Fc-gamma (Fc gamma) receptor type II B1 is a tumorigenicity-enhancing factor in polyoma-virus-transformed 3T3 cells.

The murine receptor for the Fc portion of IgG is a molecule expressed by cells of the immune system. This study suggests the hypothesis that Fc gamma receptor type II B I (Fc gamma RIIB I) functions as a progression-enhancing factor when expressed ectopically on non-lymphoid tumor cells. It has been shown previously that BALB/c 3T3 cells transformed in vitro with polyoma virus (PyV) do not express Fc gamma RII but acquire the expression of this receptor following an in vivo passage in syngeneic mice.