Murr1, a protein linked to copper homeostasis, is shown in a recent Nature paper to inhibit the degradation of lκBβ. This unexpected action of Murr1, which blunts both basal and stimulus-coupled activation of the NF-κB transcription factor, is key in making resting CD4 T lymphocytes nonpermissive for HIV infection. [ABSTRACT FROM AUTHOR]
The article presents research highlights from the field of T cell memory based on the original research paper "Professional memory CD4+ T lymphocytes preferentially reside and rest in the bone marrow," by K. Tokoyoda et al. that was published in the May 7, 2009 issue of "Immunity." Subjects discussed include antigen-specific memory T cells in mice, immune responses, and the role of interleukin-7 (IL-7) in expressing stromal cells.
The article focuses on research on immune responses, regulatory T cells and T-cell signaling. Papers discussed which were published in other periodicals include "Dendritic Cell Stimulation By Mycobacterial Hsp70 is Mediated Through CCR5," by R. A. Floto et al and "Alterations in CD46-Mediated Tr1 Regulatory T Cells in Patients With Multiple Sclerosis," by A. L. Astier et al.
The article focuses on a research paper investigating whether it is possible to induce antitumor responses in vivo in cancer patients by activating natural killer T (NKT) cells, which are induced to proliferate by dendritic cells. The patients experienced temporary inflammatory symptoms as well as respiratory symptoms in individuals with pulmonary metastases. The study offers clinical evidence that NKT cells can bridge innate and acquired immunity to induce secondary antitumor immune responses.