Analysis of CIITA encoding AIR-1 gene promoters in insulin-dependent diabetes mellitus and rheumatoid arthritis patients from the northeast of Italy: absence of sequence variability.

Qualitative and/or quantitative alterations in the expression of the MHC class II molecules affect the onset and maintenance of the immune response and may be the basis of a wide variety of disease states, such as autoimmunity and immunodeficiency.CIITA is a major physiological regulator of the expression of MHC class II genes. The availability of CIITA ap- pears generally essential for MHC class II gene expression, and hence its own transcriptional regulatory mechanisms result of fundamental importance for a correct homeostasis of the immune response. Therefore, it is possible to hypothesize that variability at the CIITA-encoding locus, AIR-1, could constitute an additional source of susceptible traits to autoimmune diseases. Mutations at AIR-1/CIITA promoters could modulate expression of CIITA. Variations in CIITA expression could influence the qualitative and quantitative expression of MHC class II molecules at cell surface. We have analyzed sequence variation at AIR-1/CIITA promoters by PCR-SSCP in 23 IDDM and 30 RA patients compared to a sample of 19 unaffected normal controls and 16 unaffected IDDM family members, for a total of 88 Caucasian subjects from the Northeast of Italy. No sequence difference was found at the four AIR-1/CIITA promoters between autoimmune patients and normal controls. Moreover, the promoters resulted invariant within the entire group of 88 subjects analyzed, comprising patients and controls. This finding suggests a possible selective advantage in maintaining CIITA upstream regulatory sequences invariant.

Nearest-neighbor analysis of a photosystem II complex from Marchantia polymorpha L. (liverwort), which contains reaction center and antenna proteins.

A new photosystem II preparation was isolated from Marchantia polymorpha thylakoids upon solubilization with dodecyl beta-D-maltoside and glycerol gradient ultracentrifugation. Its protein composition was analyzed, and all tested polypeptides from the core complex, the oxygen-evolving enhancer and the light-harvesting complex (LHC) could be detected. The only component severely depleted compared with the grana membrane preparation was the psbS gene product. This complex was subjected to chemical cross-linking using the cleavable homobifunctional cross-linker dithiobis(sulfosuccinimidylpropionate). The overall pattern of cross-linking-products was analyzed by diagonal electrophoresis, where the cross-linking agent was cleaved by reduction of the disulfide bond between the first and second dimensions of the gel, followed by immunoblotting. Many cross-linking products were characterized and these data used in order to identify protein masses revealed by electron microscopy [Boekema, E. J., Hankamer, B., Bald, D., Kruip, J., Nield, J., Boonstra, A. F., Barber, J. & Rögner, M. (1995) Proc. Natl Acad. Sci. USA 92, 175-179]. It is concluded that the core proteins CP43 and CP47 are located at opposite sides of the D1-D2-cytochrome b559 complex. Minor CAB proteins were found to interact with core complex subunits (CP29, CP26) and LHCII (CP26), supporting the view that these proteins could interface the major LHCII with the reaction center.

A CK2 site is reversibly phosphorylated in the photosystem II subunit CP29.

Protein phosphorylation is a major mechanism in the regulation of protein function. In chloroplast thylakoids several photosystem II subunits, including the major antenna light-harvesting complex II and several core complex components, are reversibly phosphorylated depending on the redox state of the electron carriers. A previously unknown reversible phosphorylation event has recently been described on the CP29 subunit which leads to conformational changes and protection from cold stress (Bergantino, E., Dainese, P., Cerovic, Z. Sechi, S. and Bassi, R. (1995) J. Biol Chem. 270, 8474-8481). In this study, we have identified the phosphorylation site on the N-terminal, stroma-exposed domain, showing that it is located in a sequence not homologous to the other members of the Lhc family. The phosphorylated sequence is unique in chloroplast membranes since it meets the requirements for CK2 (casein kinase II) kinases. The possibility that this phosphorylation is involved in a signal transduction pathway is discussed.