B. Blanchard

At the neuromuscular junction, acetylcholinesterase (AChE) is mainly present as asymmetric forms in which tetramers of catalytic subunits are associated to a specific collagen, collagen Q (ColQ). The accumulation of the enzyme in the synaptic basal lamina strictly relies on ColQ. This has been shown to be mediated by interaction between ColQ and perlecan, which itself binds dystroglycan. Here, using transfected mutants of ColQ in a ColQ-deficient muscle cell line or COS-7 cells, we report that ColQ clusterizes through a more complex mechanism. This process requires two heparin-binding sites contained in the collagen domain as well as the COOH terminus of ColQ. Cross-linking and immunoprecipitation experiments in Torpedo postsynaptic membranes together with transfection experiments with muscle-specific kinase (MuSK) constructs in MuSK-deficient myotubes or COS-7 cells provide the first evidence that ColQ binds MuSK. Together, our data suggest that a ternary complex containing ColQ, perlecan, and MuSK is required for AChE clustering and support the notion that MuSK dictates AChE synaptic localization at the neuromuscular junction.

The use of RNA blot hybridization with DNA or RNA probes of high specific activity has shown that interferon (IFN)-alpha mRNA is present constitutively in the spleen, kidney, liver, and peripheral blood leukocytes of normal individuals. A single band (approximately equal to 1.2 kilobases) was detected in poly(A)+ RNA isolated from human organs. This RNA hybridized specifically to human IFN-alpha 1 DNA and comigrated with mature IFN-alpha mRNA from virus-induced human peripheral blood leukocytes. No IFN-beta RNA transcripts were detected in any of the tissues tested. IFN-gamma mRNA was detected in only one sample of normal human spleen, which also contained an unusually high level of IFN-alpha mRNA. The use of a modified S1 mapping technique revealed the presence of IFN-alpha 1 and -alpha 2 transcripts only. No IFN-alpha 4, -alpha 5, -alpha 6, -alpha 7, -alpha 8, or -alpha 14 transcripts were detected in the same sample. The detection, in all the samples tested, of a characteristic pattern of expression of IFN genes, different from that obtained following induction, together with the low number of transcripts present (less than or equal to 0.03 copy per cell) suggest that specific IFN genes are transcribed constitutively in vivo.

The gene of a cytokine designated IFN-beta-2, or IL-6, and recently identified as identical to the B cell-stimulatory factor 2, is transcribed at high levels in the spleen, liver, kidney, and peripheral blood leukocytes of normal individuals. The number of IFN-beta-2/IL-6 transcripts present endogenously in normal human tissues (0.6 to 16 copies/cell) is comparable to that present in normal cells induced in vitro with human rTNF. This is in marked contrast to the absence of detectable IFN-beta-1 transcripts (less than 0.0003 copy/cell) in the same samples of human tissue. The expression of the IFN-beta-2/IL-6 gene is closely associated with that of two other cytokines TNF, and IL-1. Thus, significant levels of IFN-beta-2/IL-6, TNF, IL-1 alpha, and IL-1 beta, mRNA were detected in all the samples of normal tissue tested and those samples which contained high levels of IFN-beta/IL-6 mRNA also contained high levels of TNF, and IL-1 beta mRNA. These results suggest that these cytokines may function in consort as regulators of cellular growth and function in normal tissues.