Peflin and ALG-2, members of the penta-EF-hand protein family, form a heterodimer that dissociates in a Ca2+-dependent manner.

Peflin, a newly identified 30-kDa Ca(2+)-binding protein, belongs to the penta-EF-hand (PEF) protein family, which includes the calpain small subunit, sorcin, grancalcin, and ALG-2 (apoptosis-linked gene 2). We prepared a monoclonal antibody against human peflin. The antibody immunoprecipitated a 22-kDa protein as well as the 30-kDa protein from the lysate of Jurkat cells. Western blotting of the immunoprecipitates revealed that the 22-kDa protein corresponds to ALG-2. This was confirmed by Western blotting of the immunoprecipitates of epitope-tagged peflin or ALG-2 whose cDNA expression constructs were transfected to human embryonic kidney (HEK) 293 cells. Gel filtration of the cytosolic fraction of Jurkat cells revealed co-elution of peflin and ALG-2 in fractions eluting earlier than recombinant ALG-2, further supporting the notion of heterodimerization of the two PEF proteins. Surprisingly, peflin dissociated from ALG-2 in the presence of Ca(2+). Peflin and ALG-2 co-localized in the cytoplasm, but ALG-2 was also detected in the nuclei as revealed by immunofluorescent staining and subcellular fractionation. Peflin was recovered in the cytosolic fraction in the absence of Ca(2+) but in the membrane/cytoskeletal fraction in the presence of Ca(2+). These results suggest that peflin has features common to those of other PEF proteins (dimerization and translocation to membranes) and may modulate the function of ALG-2 in Ca(2+) signaling.

Characterization of human recombinant transglutaminase 1 purified from baculovirus-infected insect cells.

Transglutaminase 1 (TGase 1) is required for the formation of a cornified envelope in stratified squamous epithelia. Recombinant human TGase 1 expressed in baculovirus-infected cells was purified in a soluble form at the molecular mass of 92 kDa. Recombinant TGase 1 was susceptible to limited proteolysis by both mu- and m-calpains, the calcium-dependent intracellular cysteine proteases. Although the proteolysis did not induce the elevation of the specific enzyme activity of TGase 1, the requirement of calcium ion in the enzymatic reaction was reduced. Furthermore, the effects of GTP, nitric oxide, and sphingosylphosphocholine, known as regulatory factors for tissue-type isozyme (TGase 2), on the enzymatic activity of TGase 1 were investigated.

Functional properties of recombinant calpain I and of mutants lacking domains III and IV of the catalytic subunit.

The catalytic subunit (L-microCANP) of human calpain I (muCANP, the high Ca2+ affinity form) and two of its mutants were expressed in Escherichia coli or using the baculovirus Sf9 system. The mutants lacked domain III (L-mu CANPDelta3) and the calmodulin-like domain IV (L-mu CANPDelta4), respectively. The bacterially expressed proteins were solubilized from the inclusion bodies and refolded with polyethylene glycol. In Sf9 cells, co-expression of the inhibitor calpastatin was necessary to prevent autolysis of L-muCANP, whereas co-expression of the regulatory subunit enhanced it. Only very low levels of mRNA of the truncated form L-mu CANPDelta4 were found in bacmid-transfected Sf9 cells, and it proved impossible to isolate this mutant using the baculovirus expression system. While the apparent Km(Ca2+) of freshly isolated human erythrocyte muCANP was about 60 microM, the recombinant monomeric forms L-mu CANP and L-mu CANPDelta3 required 65-215 and 400-530 microM Ca2+, respectively. Bacterially expressed L-mu CANPDelta4 was Ca2+-independent; the presence of inhibitors during its renaturation was necessary to prevent its autolysis. A chimeric form (L-mu mCANP) composed by domains I-III of muCANP and domain IV of calpain II (mCANP, the low Ca2+ affinity form) was also expressed in Sf9 cells. This mutant required less Ca2+ (about 50 microM) than native erythrocyte calpain for half-maximal activity and had the highest specific activity of all calpains tested. Domain III proved unnecessary for the activity of the recombinant catalytic subunit, but its absence raised the Km(Ca2+) and removed its inactivation at high Ca2+ concentrations. All recombinant proteins were active as monomers in polyethylene glycol-containing buffers; the in vitro association with the regulatory subunit enhanced only slightly the Vmax and the Ca2+ dependence of the expressed proteins. Activation by Ca2+ promoted the separation of the two subunits of the expressed recombinant proteins.

Ascorbate-dependent expression of ubiquitin genes in guinea pigs.

In an attempt to characterize a gene(s), of which the expression is ascorbate-dependent, a cDNA fragment encoding ubiquitin was isolated from a subtracted cDNA library constructed from spleen RNAs of ascorbate-deficient or -replete guinea pigs. On Northern blot analysis, three transcripts (1.8 kb ubiX, 1.3 kb ubiY and 0.7 kb ubiZ) were detected. The ubiY encodes four direct repeats of the 76 amino acid ubiquitin sequence with seven additional amino acids, V-Y-A-S-P-I-F, at the C-terminus. The transcript ubiX appears to comprise more than five repeats of the ubiquitin-encoding unit. The ubiZ encodes a ubiquitin monomer fused to an 80 amino acid extension exhibiting 100% amino acid sequence identity to the human homolog, HUMUBA80R. The ubiX gene was expressed animal-dependently. The ubiY mRNA levels decreased under ascorbate-deficient conditions, and increased under ascorbate-replete conditions, whereas ubiZ mRNA remained unaltered at low levels under the feeding conditions used here.

Ascorbate-dependent elevation of mRNA levels for cytochrome P450s induced by polychlorinated biphenyls.

Trichlorobiphenyl induced only CYP1A2 mRNA, while pentachlorobiphenyl induced both CYP1A2 and CYP2B1 mRNAs in rat liver. The mRNA levels for these P450s were elevated when ascorbic acid-deficient ODS rats (mutant rats with a hereditary osteogenic disorder) were fed a diet supplemented with ascorbic acid. The amount of CYP2B1 mRNA increased rapidly and reached a maximum level of approximately double within 24 hr of injection of pentachlorobiphenyl. Thereafter, the amount of its mRNA decreased to a steady level. This pattern was roughly paralleled by changes in the amount of CYP1A2 mRNA.