To obtain information on the role of proteasomes in the immune system, we examined the effect of a major immunomodulatory cytokine, gamma interferon (IFN-gamma), on the expressions, structures, and functions of proteasomes. IFN-gamma greatly increased the levels of the mRNAs encoding LMP2 and LMP7, putative immuno-proteasome subunits encoded by genes within the class II MHC region, and these two subunits synthesized were assembled completely into the proteasomal multi-subunit complex in various types of human cells. The subunit organization of proteasome changed in response to IFN-gamma stimulation, due to assembly of newly synthesized subunits through up- and down-expressions of at least 6 proteasome genes including LMP2/LMP7 without change in the structure of pre-existing proteasomes. Interestingly, IFN-gamma dramatically stimulated the trypsin-like and chymotrypsin-like activities of the multifunctional proteasome and depressed the peptidylglutamyl-peptide-hydrolyzing activity, without affecting the activity for ATP-, ubiquitin-dependent proteolysis. These results indicate that IFN-gamma modifies not only the structural organization of the proteasome, but also its functions. Based on these findings, we discuss the role in the antigen processing/presentation pathway of proteasomes with functional diversity acquired through alteration of their subunit assembly in response to IFN-gamma stimulation.
Proteasomes (multi-protease complexes) are composed of approximately 15 non-identical subunits of similar sizes (molecular weight = 21-32 kDa), but different charges (isoelectric point = 4-9). Previously, we deduced the primary structures of 6 subunits of rat proteasomes by recombinant DNA techniques. In this paper we report the nucleotide sequences of 4 other subunits, rIOTA, rZETA, rDELTA, and rRING12, determined from cDNA clones isolated by screening a rat H4TG hepatoma cell cDNA library with the cDNAs of their human counterparts as probes. The polypeptides deduced from their nucleotide sequences consisted of 246, 241, 202, and 219 amino acid residues with calculated molecular weights of 27,399, 26,391, 21,649, and 23,324, and calculated isoelectric points of 6.37, 4.65, 4.84, and 4.70, respectively. These results and previous findings indicate that the primary structures of the subunits of rat proteasomes show considerably high inter-subunit homology, but can be classified into apparently distinct sub-groups, suggesting that rat proteasome genes form a multi-gene family with the same evolutionary origin, but have diverged during evolution to acquire possibly subunit-specific functions.
To examine whether renal cell carcinoma displays altered CD44 expression we performed reverse transcription‐polymerase chain reaction (RT‐PCR) analysis of CD44 in 38 specimens from renal cancer, normal kidney and metastases of 19 patients and 6 renal cancer cell lines. To detect the CD44 variants, we utilized the RT‐PCR Southern blot method. One out of 19 (5.3%) renal cancer specimens expressed a larger molecular weight band than 1 kb by RT‐PCR analysis, in contrast to previous findings in colon and breast cancer. The band patterns in RT‐PCR were different in 14/17 (82.4%) cases between normal kidney and tumors, and a band of about 700 bp was especially marked in 12/17 (70.6%) tumor specimens and 4/6 (66.7%) cell lines. By cloning and sequencing of the 700 bp band, we found that this variant is identical to the CD44 variant sharing only exon v10. Examination by Northern blot analysis has revealed that all tumors express a higher level of CD44 mRNA than paired normal kidneys. These findings suggested that the CD44 variants sharing exon v10 play some role in renal cancer.
Received 31 January 1992The nuclcotidc scqucncc or :I cDNA 1h:11 encodes a new subunit. ntimcd RCI. or rat proteasomcs (multicatalytic protcinase complexes) has been determined, The polypcptide prcdictcd l'rom the open reading frilmcconsistcd of 208 amino acid rcsiducs with a calculated molecular mussaf23,130, which is consistcm with thu size obtained by clcctrophorotic un;llysis ol' purilicd RCI. The partial amino acid sequences of scvcral fragrncats of RCI. obiaincd by protein chcmic;iI ;m;llyscs, wcrc round IO bc in ~cllcnt xcordancc with those deduced from the cDNA sequence. Surprisingly. the ovcmll structure ol' RCI was round to bc ulmost identical to that of rcccntly isolutcd RINGIO, whose gcnc is located in the class II region of the lnunun MHC gcnc clustrr. This finding suggests th;it RCI is u homolopuc of ln~rnlr~~ RINGIO. supporting the proposal that protcasomes arc involved in the ant&n processing puthwuy.
Seminoma arising in patients with Klinefelter's syndrome is extremely rare; to our knowledge, only three cases have been reported in the English language literature. We report a case of intrapelvic seminoma in a 39-year-old man with Klinefelter's syndrome. Gross examination revealed that the tumor was a solid and irregular mass measuring 90 mm in diameter. The cut surfaces of this ill-defined tumor were yellow-white with necrotic foci. Histologically, the tumor cells were separated into lobules by branching, fibrous septa containing lymphocytes. In some parts of the tumor, a cord-like arrangement of tumor cells was present. Immunohistochemically, the tumor cells were strongly and diffusely positive for antiplacental alkaline phosphatase antibody along their cytoplasmic membranes, but negative for both chorionic gonadotrophin and alpha-fetoprotein. Based on these findings, we diagnosed this tumor as a seminoma. The testes when examined were found to be atrophic bilaterally, but with no tumor lesions. Chromosomal analysis yielded a 47XXY karyotype, compatible with Klinefelter's syndrome. These findings indicate a case of primary intrapelvic seminoma in Klinefelter's syndrome. The patient underwent intensive radiation therapy postoperatively, and he demonstrated no evidence of recurrence or metastasis during the 13-month period following surgery.
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