Loes A. Gravestein scite author profile

The Traf-linked tumor necrosis factor receptor family member CD27 is known as a T cell costimulatory molecule. We generated CD27-/- mice and found that CD27 makes essential contributions to mature CD4+ and CD8+ T cell function: CD27 supported antigen-specific expansion (but not effector cell maturation) of naïve T cells, independent of the cell cycle-promoting activities of CD28 and interleukin 2. Primary CD4+ and CD8+ T cell responses to influenza virus were impaired in CD27-/- mice. Effects of deleting the gene encoding CD27 were most profound on T cell memory, reflected by delayed response kinetics and reduction of CD8+ virus-specific T cell numbers to the level seen in the primary response. This demonstrates the requirement for a costimulatory receptor in the generation of T cell memory.

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All sibdgenomic mRNAs of equine arteritis virus contain am common leader sequence

Vries

et al. 1990

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During the replication of equine arteritis virus (EAV) six subgenomic mRNAs are synthesized. We present evidence that the viral mRNAs form a 3'-coterminal nested set and contain a common leader sequence of 208 nucleotides which is encoded by the 5'-end of the genome. The leader is joined to the bodies of mRNA 5 and 6 at positions defined by the sequence 5' UCAAC 3'. The part of the leader sequence flanking the UCAAC motif is very similar to the 5'-splice site of the Tetrahymena pre-rRNA. A possible internal guide sequence has been identified 43 nucleotides downstream of the leader sequence on the genome. Hybridization analysis shows that all EAV intracellular RNAs contain the leader sequence. These data imply that the viral subgenomic mRNAs are composed of leader and body sequences which are non-contiguous on the genome.

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Tumor necrosis factor receptor family members in the immune system

Gravestein¹,

Borst

1998

Seminars in Immunology

147

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Novel mAbs reveal potent co-stimulatory activity of murine CD27

Gravestein¹,

Nieland

Kruisbeek

et al. 1995

Int Immunol

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Members of the tumor necrosis factor receptor (TNFR) family are emerging as important molecules implicated in the regulation of proliferation, differentiation and survival of T and B lymphocytes. Among these receptors is CD27, the function of which has thus far only been studied in the human system, where it amplifies the T cell proliferative response induced by TCR triggering. We report here the generation of mAbs to murine CD27, by an efficient method involving the use of transfected Armenian hamster fibroblasts. Previous analysis had already indicated that murine CD27 mRNA is uniquely expressed in lymphoid cells. As determined with one of the newly developed antibodies, murine CD27 is expressed on the great majority of both alpha beta and gamma delta T lymphocytes, on a small population of peripheral B cells, and on a very small subset of B220+ cells in the bone marrow. This distribution largely corresponds to that in the human system. However, unlike human CD27, which is primarily expressed in mature, medullary thymocytes, murine CD27 is found on all thymocytes, except a subset of CD4-CD8- precursors. Upon cross-linking, anti-CD27 mAb amplified the proliferative response of purified T lymphocytes to suboptimal stimulation with concanavalin A at least 4-fold. This indicates that such mAbs can mimick ligand binding and demonstrates that CD27 also acts as a potent co-stimulatory molecule in the murine system.

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The CD27 membrane receptor, a lymphocyte‐specific member of the nerve growth factor receptor family, gives rise to a soluble form by protein processing that does not involve receptor endocytosis

et al. 1992

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CD27 is a transmembrane glycoprotein found exclusively on human T and B lymphocytes. It belongs to a recently identified receptor family, whose members are involved in cell differentiation and survival. This family includes the nerve growth factor receptor, two different types of tumor necrosis factor, receptors the Fas antigen, and the B cell-specific protein CD40. T cell activation via the antigen receptor strongly enhances CD27 membrane expression, suggesting a role for CD27 during T cell differentiation. A soluble form of CD27 (sCD27) is released into the supernatant of activated T cells, and detected in serum and urine of healthy individuals and patients. We have investigated the mechanism underlying the generation of sCD27. One mRNA encodes both the transmembrane receptor and sCD27, as shown by cDNA transfection. In line with this, only one CD27 precursor protein is found, that is processed to the mature receptor by extensive O-linked glycosylation. All newly synthesized protein is rapidly transported to the plasma membrane; no internal pool of mature protein is detectable. The transmembrane form gives rise to sCD27 after arrival at the cell surface, most likely via a proteolytic event, that does not involve receptor internalization.

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