In addition to their well defined role in presentation of processed antigen on the cell surface, class II molecules are able to transduce signals into the cell after binding of ligands. The cytoplasmic regions of class II molecules might function as docking sites for as yet unidentified proteins that are components of this signalling pathway. Here we report on two putative HLA class II associated proteins (PHAPI and PHAPII) which have been purified from the cytosolic fraction of the human lymphoblastoid B-cell line H2LCL using an affinity matrix composed of the synthetic biotinylated cytoplasmic region of the DR2 alpha chain immobilized on avidin agarose. The sequence obtained for PHAPI revealed a novel primary structure with a leucine/isoleucine rich N-terminal region. Protein data and the cDNA sequence obtained for PHAPII agree with the cDNA sequence of SET that has been described recently. Both PHAPI and PHAPII have an extended highly acidic C-terminal region. Based on their primary structure we speculate that PHAPI and PHAPII are involved in the generation of intracellular signalling events that lead to regulation of transcriptional activity after binding of a ligand to HLA class II molecules.
The cDNA libraries constructed from the human acute lymphoblastic leukemia cell line KM3 in the expression vector lambda gt11, were screened with the anti-CALLA (common acute lymphoblastic leukemia antigen) mAb (monoclonal antibody) J5. The selected J5-positive clone I containing a partial cDNA insert was isolated and sequenced. For completing the cDNA sequence the cDNA libraries were further screened by hybridization with the DIG (digoxigenin)-labelled DNA probe derived from clone I, the 5'-end region was analysed by 5'-RACE (rapid amplification of cDNA ends) using a sequence specific primer. In total a 1639 bp cDNA sequence was determined. The cDNA sequence contains a 1260 bp open reading frame and the untranslated 3'- and 5'-end sides. The 420 residue amino acid sequence, deduced from the cDNA sequence, unexpectedly differs fundamentally from CALLA (CD10) although clones I and II were J5-positive in immuno screening. The mature protein corresponding to the cDNA was isolated and characterized from the KM3 cells using polyclonal antisera raised against the in vitro expressed polypeptide from clone I. The protein is expressed on plasma membrane, in cytosol and is secreted into culture medium, its relative molecular mass was determined to be 55 kDa on SDS-PAGE. The deduced amino acid sequence from cDNA was confirmed by peptide sequences. The new protein contains a basic amino acid rich putative DNA binding domain (b) with a potential nuclear targeting signal, two helix-loop-helix (HLH) motif regions, concurrently EF-hand motifs, an acidic amino acid rich region (a) between the EF-hands, and a leucine zipper (Z) motif. This DNA binding protein therefore is characterized by a linked motif "b/HLH/a/HLH/Z". The protein was designated NEFA: DNA binding/EF-hand/acidic amino acid rich region.
We report on the production and characterization of eight monoclonal mouse antibodies against the complete human VDAC "Porin 31HL". The antigen used was purified from a total membrane preparation of the transformed human B-lymphocyte cell line H2LCL.In Western blots all eight mAbs react with a single 31-kDa band in solubilized H2LCL membrane preparations thus demonstrating their specificity for the human VDAC 'Torin 31HL". Concerning the epitope specificity we show that all eight mAbs equally react with the N-terminal part of human porin.Moreover, we demonstrate the expression of VDAC in the sarcolemma by indirect immunoenzyme labelling of cryosections of human skeletal muscle applying four of our mAbs. These data support our recent observations on the expression of porin channels in the plasmalemma of different normal and transformed human cell lines.
Porin 31HL was isolated and purified from total membrane preparations of a human B-lymphocyte cell line. The protein showed a single band of apparent molecular mass 31kDa on SDS-PAGE. Reconstitution of the protein into artificial lipid bilayer membranes defines its function as a channel-forming protein. The distribution of single-channel conductances had two maxima of 2.4 and 4.3 nS in IM KC1. The channel formed by Porin 31HL of human B-lymphocytes was found to be voltage-dependent and switched to ion-permeable substates at membrane voltage larger than 20 m V. In the open state the pore exhibited the characteristics of a general diffusion pore because the mobility sequence of the ions inside the pore was similar to that in the bulk aqueous phase. The effective diameter was estimated to be about 1.7nm. The properties of the low conductance state of the channel were studied in detail. In this state the pore favored the passage of cations, in contrast to the open state which favored anions slightly. Monoclonal antibodies against the N-terminal end of Porin 31HL blocked its reconstitution but had otherwise no influence on the channel properties. This result suggested that the amphipathic -helical structure at the N-terminal end is probably not involved in channel gating. The channel-forming properties of Porin 31HL were compared to those of porins isolated from mitochondrial outer membranes and to those of the "maxi chloride channel" observed in the cytoplasmic membrane of several eukaryotic cells.
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