Brendan J. Classon scite author profile

The differentiation of precursor cells into neurons or astrocytes in the developing brain has been thought to be regulated in part by growth factors. We show here that neural precursors isolated from the developing forebrain of mice that are deficient in the gene for the low-affinity leukemia inhibitory factor receptor (LIFR ؊/؊ ) fail to generate astrocytes expressing glial fibrillary acidic protein (GFAP) when cultured in vitro. Precursors from mice heterozygous for the null allele show normal levels of GFAP expression. These findings support the in vivo findings that show extremely low levels of GFAP mRNA in brains of embryonic day 19 LIFR ؊/؊ mice. In addition, monolayers of neural cells from LIFR ؊/؊ mice are far less able to support the neuronal differentiation of normal neural precursors than are monolayers from heterozygous or wild-type animals, indicating that endogenous signaling through the LIFR is required for the expression of both functional and phenotypic markers of astrocyte differentiation. LIFR ؊/؊ precursors are not irreversibly blocked from differentiating into astrocytes: they express GFAP after long-term passaging or stimulation with bone morphogenetic protein-2. These findings strongly implicate the LIF family of cytokines in the regulation of astrocyte differentiation and indeed the LIF-deficient animals show a significant reduction in the number of GFAP cells in the hippocampus. However, because this reduction is only partial it suggests that LIF may not be the predominant endogenous ligand signaling through the LIFR.

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Molecular cloning and characterization of the novel, human complement-associated protein, SP-40,40: a link between the complement and reproductive systems.

Kirszbaum

et al. 1989

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The cDNA sequence encoding the human complement‐associated protein, SP‐40,40, is reported. The two chains of SP‐40,40 are coded in a single open reading frame on the same mRNA molecule, indicating the existence of a biosynthetic precursor protein which matures post‐synthetically by the proteolysis of at least one peptide bond. The precursor is preceded by a signal sequence for vectorial export and contains six N‐linked glycosylation sites distributed equally between the two chains of the structure. The sequence of the SP‐40,40 precursor bears a 77% identity to a rat sulphated glycoprotein‐2 (SGP‐2) which is the major secreted product of Sertoli cells. The presence of SP‐40,40 within human seminal plasma at levels comparable to those in serum was demonstrated, indicating that SP‐40,40 and SGP‐2 are serum and seminal forms of the same protein. A sequence of 23 amino acids within the beta‐chain of SP‐40,40 exhibited significant homology to corresponding segments located within complement components C7, C8 and C9. The short cysteine‐containing motif represented the only evidence of a possible vestigial relationship between SP‐40,40 and other complement components. The precise role of SP‐40,40 is not known in either blood or semen but the present findings document an intriguing link between the immune and the reproductive systems.

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A Unique Thymic Fibroblast Population Revealed by the Monoclonal Antibody MTS-15

Gray

Tull

Ueno

et al. 2007

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T cell differentiation in the thymus is dependent upon signals from thymic stromal cells. Most studies into the nature of these signals have focused only on the support provided by the thymic epithelium, but there is an emerging view that other stromal cells such as mesenchymal fibroblasts may also be involved. Study of the latter has been hindered by a lack of appropriate markers, particularly those allowing their isolation. In this study, we describe a new surface marker of thymic stroma, MTS-15, and demonstrate its specificity for fibroblasts and a subset of endothelial cells. Coculture experiments showed that the determinant could be transferred between cells. Extensive biochemical analysis demonstrated that the Ag bound by MTS-15 was the glycosphingolipid Forssman determinant, consistent with the distribution observed. Transcriptional analysis of purified MTS-15+ thymic fibroblasts revealed a unique expression profile for a number of chemokines and growth factors important to thymocyte and epithelial cell development. In a model of cyclophosphamide-induced thymic involution and regeneration, fibroblasts were found to expand extensively and express growth factors important to epithelial proliferation and increased T cell production just before thymic regeneration. Overall, this study identifies a useful marker of thymic fibroblasts and highlights this subpopulation as a key player in thymic function by virtue of their support of both thymocytes and epithelial cells.

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Are CD8+ dendritic cells (DC) veto cells? The role of CD8 on DC in DC development and in the regulation of CD4 and CD8 T cell responses

Kronin

Vremec²,

Winkel³

et al. 1997

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The CD8-expressing dendritic cells (DC) present in mouse spleen have been shown to have a regulatory effect on the CD4 and CD8 T cells they activate, restricting subsequent T cell proliferation by either inducing apoptotic T cell death (CD4 T cells) or by limiting endogenous cytokine production (CD8 T cells). To determine the role of the CD8 molecule itself in these regulatory phenomena, the DC from CD8 null mice were studied. The DC marker DEC-205 (NLDC 145) was used as a surrogate marker for CD8, since the expression of these two molecules on splenic DC was closely correlated. DC levels were normal, and the incidence of DEC-205+ and DEC-205- DC was normal in CD8 null mice, indicating that the absence of CD8 did not affect DC development. The proliferative response of T cells to allogeneic DEC-205+ DC from either CD8-/- or CD8+/+ mice was similar and was much less than the response to DEC-205- DC from these mice. This applied to both the CD4 and the CD8 T cell responses. Thus the lack of the CD8 molecule did not affect the stimulatory or regulatory properties of the DC. The regulatory CD8+ DEC-205+ DC therefore differ in that respect from antigen-presenting 'veto' cells, where CD8 itself is involved in transmitting negative signals to the T cells. DEC-205 may prove to be a more pertinent marker of the regulatory DC population.

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