Masaki Cho scite author profile

Midkine (MK) is a growth/differentiation factor frequently expressed at high levels in some types of human malignancies. To investigate whether MK is a useful marker in prostate carcinogenesis, immunohistochemical analysis was performed on samples of both latent and clinical prostate cancers of various stages, as well as on specimens of normal gland and prostatic intraepithelial neoplasia (PIN). Of the 80 clinical cancers examined, 69 specimens (86.3%) were immunoreactive for MK, with metastatic lesions generally showing higher expression than the corresponding primaries; normal prostate tissues were negative or showed only weak staining. Midkine was also detected in 12 of 15 latent cancers (80%) and in 12 of 16 cases of PIN (75%). In sections of whole prostate, MK showed variable expression through tumorous sections, probably in reflection of heterogeneous cell populations. The results demonstrate the possible value of MK as a marker for early and latent disease, as well as for more advanced clinical stages of prostate cancer.

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Aggressive angiomyxoma in the scrotum expressing androgen and progesterone receptors

Chihara

Fujimoto

Takada

et al. 2003

Int J of Urology

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Aggressive angiomyxoma is a rare benign mesenchymal myxoid tumor that arises from the pelvic soft tissues and perineum in relatively young females. This tumor has the ability to infiltrate locally and has a high risk of local recurrence after extirpation, but no potential to metastasize. We report here a rare case of aggressive angiomyxoma that developed in the scrotum of a 47-year-old male.Immunostaining of the resected specimen revealed that the tumor cell nuclei stained strongly and diffusely for androgen receptors (80% of the tumor cells), and moderately and partly for progesterone receptors (20% of the tumor cells). However, staining was negative for estrogen receptors. It is highly suggested that the growth of aggressive angiomyxoma in males may depend on androgen manipulation, contrary to its frequent and close association with estrogen receptor expression, which has been reported in females.

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Activation of theMN/CA9 gene is associated with hypomethylation in human renal cell carcinoma cell lines

et al. 2000

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The MN/CA9 (G250) gene expressed in the normal alimentary tract in a tissue-specific manner is often activated in renal cell carcinomas. To cast light on the activation mechanism, we examined the methylation status of this gene in seven human renal cell carcinoma cell lines (SKRC-01, -06, -10, -12, -14, -44, and -59) and three normal kidney tissue samples by using the bisulfite genomic sequencing protocol. CpG methylation was measured at seven locations in the MN/CA9 5' region. MN/CA9 transcripts were detected by reverse transcription-polymerase chain reaction in five of the renal cell carcinoma cell lines (SKRC-01, -06, -10, -44, and -59). These MN/CA9 positive cell lines showed hypomethylation, whereas the remaining two cell lines (SKRC-12, and -14), and three normal kidney tissue samples without transcripts demonstrated hypermethylation. Treatment with the demethylating agent 5-aza-2'-deoxycytidine resulted in activation of the MN/CA9 gene in the negative cell lines (SKRC-12 and -14). These data suggest that hypomethylation in the 5' region may have a major role in expression of the MN/CA9 gene in renal cell carcinoma cells.

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Expression of pepsinogen II with androgen and estrogen receptors in human prostate carcinoma

Konishi¹,

Nakaoka²,

Matsumoto³

et al. 1999

Pathology International

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The expression of pepsinogen II (PG II), an aspartyl proteinase usually involved in the digestion of proteins in the stomach, was immunohistochemically investigated in conjunction with androgen (AR) and estrogen receptor (ER) status in prostate adenocarcinomas. Of a total of 38 samples obtained from radical prostatectomies, 23 tumors (60.5%) were positive for PG II and there was a significant positive correlation to the expression of AR but not to ER. Cells positive for PG II were localized mainly to the peripheral zones of tumorous glands which, in normal prostate, are negative, and in areas also expressing AR. In addition, a significant correlation between AR and ER was detected in the prostate carcinomas examined, which suggests a hormone-dependent status. On the basis of these results, PG II expression might be closely related to hormonal alterations associated with the development of prostate tumors.

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Genetic changes in prostate cancer

Konishi

Cho

Yamamoto

et al. 1997

Pathology International

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Recent advances in molecular biology have allowed us to understand that it is the accumulation of genetic alterations which leads to each step of tumorigenesis. What the specific alterations may be, however, often varies with each neoplasm. Prostate cancer is somewhat unique in its presentation to the pathologist of a bewildering array of histologies difficult to assign to diagnostic categories and contributing to misinterpretations of underlying molecular events. As with any malignancy, it is of utmost importance to thoroughly analyze and record the genetic aberrations found in prostate cancer with the objective of correlation to the pathology and natural history of the disease. Multiple oncogenes and tumor suppressor genes have been investigated in both clinical and latent cancer using conventional mutational analyses. To probe deeper into these genes and to uncover novel molecular events, genomic tumor DNA were examined using restriction landmark genomic scanning (RLGS), a method which allows the identification and comparison of specific genetic alterations within large segments and multiple samples of DNA at a time. This article reviews what has been identified based on numerous molecular studies, focusing on the genetic alterations peculiar to human prostate cancer.

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Masaki Cho

Immunohistochemical Analysis of Midkine Expression in Human Prostate Carcinoma

Aggressive angiomyxoma in the scrotum expressing androgen and progesterone receptors

Activation of theMN/CA9 gene is associated with hypomethylation in human renal cell carcinoma cell lines

Expression of pepsinogen II with androgen and estrogen receptors in human prostate carcinoma

Genetic changes in prostate cancer

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