Ced-4 and Apaf-1 belong to a major class of apoptosis regulators that contain caspase-recruitment (CARD) and nucleotide-binding oligomerization domains. Nod1, a protein with an NH 2 -terminal CARD-linked to a nucleotide-binding domain and a COOH-terminal segment with multiple leucine-rich repeats, was identified. Nod-1 was found to bind to multiple caspases with long prodomains, but specifically activated caspase-9 and promoted caspase-9-induced apoptosis. As reported for Apaf-1, Nod1 required both the CARD and P-loop for function. Unlike Apaf-1, Nod1 induced activation of nuclear factor-kappa-B (NF-B) and bound RICK, a CARDcontaining kinase that also induces NF-B activation. Nod1 mutants inhibited NF-B activity induced by RICK, but not that resulting from tumor necrosis factor-␣ stimulation. Thus, Nod1 is a leucine-rich repeatcontaining Apaf-1-like molecule that can regulate both apoptosis and NF-B activation pathways.
In the original version of Figure 2B, two of the patient identifiers were incorrectly noted. OS-11 and OS-12 were listed twice. The second instances should have been labeled as CID-11 and CID-12, respectively. The correct figure panel is below.The authors regret the error.
Vaccinia virus (VV), currently used in humans as a live vaccine for smallpox, can interfere with host immunity via several discrete mechanisms. In this study, the effect of VV on MHC class II-mediated Ag presentation was investigated. Following VV infection, the ability of professional and nonprofessional APC to present Ag and peptides to CD4+ T cells was impaired. Viral inhibition of class II Ag presentation could be detected within 1 h, with diminished T cell responses dependent upon the duration of APC infection and virus titer. Exposure of APC to replication-deficient virus also diminished class II Ag presentation. Virus infection of APC perturbed Ag presentation by newly synthesized and recycling class II molecules, with disruptions in both exogenous and cytoplasmic Ag presentation. Virus-driven expression of an endogenous Ag, failed to restore T cell responsiveness specific for this Ag in the context of MHC class II molecules. Yet, both class II protein steady-state and cell surface expression were not altered by VV. Biochemical and functional analysis revealed that VV infection directly interfered with ligand binding to class II molecules. Together, these observations suggest that disruption of MHC class II-mediated Ag presentation may be one of multiple strategies VV has evolved to escape host immune surveillance.
In the original version of Figure 2B, two of the patient identifiers were incorrectly noted. OS-11 and OS-12 were listed twice. The second instances should have been labeled as CID-11 and CID-12, respectively. The correct figure panel is below.The authors regret the error.
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