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Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
PSP94
has the potential to be a useful diagnostic marker and therapeutic agent in prostate cancer. Recently, different immunoassay systems for quantitative analysis of
PSP94
in clinical samples have been developed, but the epitope structure of
PSP94
protein has not been elucidated. In this study, we report an Escherichia coli expression system for recombinant
GST
-
PSP94
fusion protein.
GST
-
PSP94
contains antigenic determinants similar to natural
PSP94
protein (determined both by Western blotting experiments and by ELISA) and can be used to study the structure of natural
PSP94
antigen. Since
GST
-
PSP94
was expressed in E. coli and purification involved a denaturing process, we propose that the epitope structure of
PSP94
is linear and largely dependent on the primary amino acid sequence, rather than conformational structure. This hypothesis was supported by reciprocal competition in ELISA among natural,
GST
-
PSP94
fusion protein, and purified recombinant
PSP94
protein. The results demonstrate that the various forms of
PSP94
can compete with each other in binding to rabbit
PSP94
polyclonal antibody, although the natural
PSP94
has a slightly higher affinity. When natural and recombinant
PSP94
protein were denatured in vitro with urea and alkali, no effect on the binding to antibody was found. The epitope activity of natural
PSP94
was also shown to be resistant to the treatment of detergent and reducing agent. The location of one of the linear epitopes recognized by the
PSP94
antibody was determined to be in the N-terminus by using two synthetic peptides representing N- and C-terminal sequences. Competitive ELISA between the N-terminal peptide and
PSP94
protein indicate that both natural and
GST
-
PSP94
have similar immunoactive N-termini.
...
PMID:Recombinant PSP94 (prostate secretory protein of 94 amino acids) demonstrates similar linear epitope structure as natural PSP94 protein. 889 4
PSP94
is a potential biomarker for evaluating patients with prostate carcinoma. We have systematically studied the epitope structure of
PSP94
by using a polyclonal antibody against human
PSP94
. Results of peptide mapping and ELISA tests of dose response to rabbit antiserum against human
PSP94
protein showed that only the N-terminal peptides (N30 and M23) are immunoreactive while all the synthetic peptides (C28, C10) located closer to the C-terminus are completely devoid of antigenic activity with the polyclonal antibody. These results were confirmed by analysis of reciprocal competitive binding of
PSP94
polyclonal antibody by the N-terminal peptides (N30 and M23) v. either recombinant
GST
-
PSP94
fusion protein, purified recombinant
PSP94
, or natural
PSP94
protein. To further delineate the antigenic activity of the N- and C-termini, we have also expressed N- and C-terminal half of the whole
PSP94
(each 47 peptides) using the E. coli
GST
expression system. The recombinant N47/C47 peptides were released by thrombin cleavage from the
GST
fusion protein and characterized by Western blotting experiments. Dose response of the recombinant
GST
-PSP-N47 and -C47 peptides to
PSP94
polyclonal antibody showed differential binding activities. Competitive binding of these recombinant N47/C47 proteins against the
GST
-
PSP94
protein demonstrates that the polyclonal antibody has a higher affinity for the N47 peptide than the C47 peptide. Based on the immunological studies of both synthetic peptides and recombinant
PSP94
- N/C terminal proteins, we propose an epitope structure of human
PSP94
with an immuno-dominant N-terminus and an immuno-recessive C-terminus.
...
PMID:Analysis of epitope structure of PSP94 (prostate secretory protein of 94 amino acids): (I). Immuno-dominant and immuno-recessive area. 913 76
PSP94
has shown potential to be a serum biomarker for evaluating prostate cancer. Studies of the epitope structure is crucial for this endeavour. In this article, we have used 15 different monoclonal antibodies (MAb) to analyse the epitope structure of
PSP94
and to compare with the results obtained from our previous work using polyclonal antibody and recombinant
PSP94
. Firstly, we determined the relative activities of the 15 MAb population by direct and competitive ELISA. The two predominant MAbs (MAb PSP-6 and -19) in 15 MAbs were selected for further studies of the epitope structure. By comparing the binding activities of recombinant
GST
-
PSP94
and natural
PSP94
with MAbs, and by comparing their affinity with MAbs in an in vitro denaturing experiment,
PSP94
was shown to have a similar, prevalently linear epitope structure as we demonstrated by polyclonal antibody. Using recombinant
GST
fusion protein with
PSP94
and with each half of the N- and C-terminal 47 amino acids (
GST
-PSP-N47/C47) in E. coli cells, the different epitopes recognized by 15 monoclonal antibodies were delineated and the polar distribution of the epitope structure of
PSP94
was characterized. Results of direct ELISA of recombinant N47 and C47 and their competitive binding against natural
PSP94
(competitive ELISA) showed that the N- and C-termini represent the immuno-dominant and immuno-recessive area separately. A majority of the monoclonal antibodies (12/15) showed preferential binding of the N-terminal sequence of the
PSP94
protein. Using
GST
-PSP-N47 as a standard protein, an epitope map of the 15 monoclonal antibodies was obtained. The results of this study will help to define the clinical utility of
PSP94
.
...
PMID:Analysis of epitope structure of PSP94 (prostate secretory protein of 94 amino acids): (II). Epitope mapping by monoclonal antibodies. 913 77
Prostate secretory protein (
PSP94
, 94 amino acids) is one of the most abundant proteins secreted from the prostate. Its biological role is unknown and still controversial, although it is assumed to have the potential to be a biomarker and a suppressor of prostate cancer. In order to establish an animal model to further elucidate its biological role, we expressed the mature form of rat
PSP94
in Escherichia coli, using a
glutathione S-transferase
(
GST
) fusion expression vector; we generated a polyclonal rabbit antibody against the recombinant protein. The antibody specifically recognized recombinant rat
PSP94
and cross-reacted only very weakly with its human homologue. Using the characterized anti-rat
PSP94
antibody, we found that
PSP94
was located primarily in rat prostate. Furthermore,
PSP94
is present at different levels in different lobes of rat prostate, with significant levels detectable only in the lateral lobe (LP). In addition, the most abundant
PSP94
expression was found in the prostate lobe secretions, and
PSP94
levels in LP secretions were at least seven times higher than in secretions from the dorsal prostate (DP). The rat ventral prostate (VP) and other regions of the male accessory glands were found to be almost completely devoid of
PSP94
. Since most rat prostate dysplasia induced by steroid hormone treatment occurs only in dorsolateral prostate, prostate tissue-specific expression and the expression of
PSP94
in dorsolateral, but not other, lobes of the prostate suggest a potential role in prostate targeting and prostate cancer development.
...
PMID:Differential expression of PSP94 in rat prostate lobes as demonstrated by an antibody against recombinant GST-PSP94. 1041 42
