Rotational and lateral dynamics of I-Ak molecules expressing cytoplasmic truncations

doi:10.1093/intimm/12.9.1319

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International Immunology, Vol. 12, No. 9, 1319-1328, September 2000
© 2000 Japanese Society for Immunology

Rotational and lateral dynamics of I-A^k molecules expressing cytoplasmic truncations

Heidi M. Munnelly, Cynthia J. Brady, Guy M. Hagen, William F. Wade², Deborah A. Roess¹ and B. George Barisas

Departments of Chemistry and
¹ Physiology, Colorado State University, Fort Collins, CO 80523, USA
² Department of Microbiology, Dartmouth Medical School, Lebanon, NH 03756, USA

Correspondence to: G. Barisas

Rotational and lateral diffusion of I-A^k molecules with various ${alpha}$ and ß chain cytoplasmic truncations known to affect classII function were measured to assess the role of cytoplasmicdomains in regulating I-A^k molecular motions. Deletion of all12 ${alpha}$ chain C-terminal residues and all 18 corresponding ßchain residues ( ${alpha}$ -12/ß-18) is known to abrogate translocationof protein kinase C to the nucleus upon class II cross-linking.Similarly, truncation of the entire cytoplasmic ${alpha}$ chain domainand the 10 C-terminal residues of the ß chain impairspresentation of antigenic peptides to T cells. The rotationalcorrelation time of the wild-type molecule, 11.9 ± 2.6µs as measured by time-resolved phosphorescence anisotropy,decreased to 7.2 ± 3.7 µs in the fully truncated ${alpha}$ -12/ß-18 protein. Other truncated class II molecules exhibitedonly small changes in molecular rotation rates relative to thewild-type. The rate of lateral diffusion of the fully truncatedmolecule, measured with two independent methods, 2.3 x 10^–10cm²/s, was comparable with that of the wild-type molecule. Thus,it appears that the ${alpha}$ and ß chain cytoplasmic domains regulatethe molecular motions of unperturbed I-A^k molecules only modestly,despite the known involvement of these regions in class II signaling.Various explanations for this behavior are discussed, e.g. thepossibility that class II membrane complexes are sufficientlylarge that association and dissociation of specific signalingproteins during antigen presentation do not significantly perturbthe apparent molecular motions of the complex.

Keywords: antigen presentation, B cell, class II, fluorescence recovery after photobleaching, time-resolved phosphorescence anisotropy

Transmitting editor: I. Pecht

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