Dr. Md. Mustafizur Rahman

Publications

• Increased expression of HMGA1 correlates with tumour invasiveness and proliferation in human pituitary adenomas.

  Wang E L, Qian Z R, Rahman M M, Yoshimoto K, Yamada S, Kudo E, Sano T

  Histopathology. 01/2010; 56:501-9.

  Aims:  High-mobility group A1 (HMGA1) is highly expressed in various benign and malignant tumours. The development of pituitary adenoma in Hmga1 transgenic mice has been reported. However, no studies have investigated HMGA1 expression and its clinical significance in human pituitary adenomas. Metho... [more] Aims:  High-mobility group A1 (HMGA1) is highly expressed in various benign and malignant tumours. The development of pituitary adenoma in Hmga1 transgenic mice has been reported. However, no studies have investigated HMGA1 expression and its clinical significance in human pituitary adenomas. Methods and results:  Immunohistochemical expression of HMGA1 was analysed with respect to various clinicopathological factors in 95 pituitary adenomas. Nuclear expression of HMGA1 was observed in 62% of pituitary adenomas, whereas normal adenohypophysial tissues were negative. Although HMGA1 expression was frequently detected in clinically non-functioning adenomas – 90% of silent adrenocorticotropic hormone (ACTH), 76.2% of follicle-stimulating hormone/luteinizing hormone and 100% of null cell adenomas – it was also detected in 48.1% of growth hormone (GH), 60% of mixed GH/prolactin (PRL), 62.5% of PRL, 66.6% of thyroid-stimulating hormone and 37.5% of ACTH adenomas. HMGA1 expression was significantly higher in invasive adenomas or macroadenomas than in non-invasive adenomas or microadenomas (invasive versus non-invasive, P < 0.05; macroadenoma versus microadenoma, P < 0.05). In addition, HMGA1 showed the highest level in grade IV, more aggressive pituitary adenomas, than in grades I, II and III (IV versus I, P = 0.01; IV versus II, P = 0.01; IV versus III, P = 0.07). Furthermore, a significant correlation between HMGA1 expression and MIB-1 labelling index was observed (R = 0.368, P < 0.0002). Conclusions:  These findings suggest that HMGA1 up-regulation has an important oncogenic role in pituitary tumorigenesis, as well as being a novel molecular marker of tumour proliferation and invasiveness.

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• Clinicopathological characterization of TSH-producing adenomas: special reference to TSH-immunoreactive but clinically non-functioning adenomas.

  Wang EL, Qian ZR, Yamada S, Rahman MM, Inosita N, Kageji T, Endo H, Kudo E, Sano T.

  Endocr Pathol. 2009 Winter;20(4):209-20. 01/2009; 20:209-20.

  Thyrotropin (thyroid-stimulating hormone (TSH))-producing pituitary adenomas have been known to be quite variable in clinical features covering from typical functioning TSH-producing adenomas (FTSHomas) associated with hyperthyroidism to clinically silent TSH cell adenomas (STAs) that are apparently... [more] Thyrotropin (thyroid-stimulating hormone (TSH))-producing pituitary adenomas have been known to be quite variable in clinical features covering from typical functioning TSH-producing adenomas (FTSHomas) associated with hyperthyroidism to clinically silent TSH cell adenomas (STAs) that are apparently unassociated with hyperthyroidism. It is important to distinguish STAs from other types of clinically non-functioning adenomas for adequate postoperative managements. However, because of rareness of TSH-producing adenomas, their histopathological features linking to the clinical manifestations have not been well characterized. Herein, we investigated clinical and histopathological findings to characterize 29 TSH-producing adenomas including 20 FTSHomas and nine STAs. Clinical symptoms of the patients with STAs included headache, visual defect, vertigo, and nausea. All STAs and 19 FTSHomas were macroadenoma. The average tumor size of STAs was significantly larger than that of FTSHomas (P <  0.05). The invasiveness was detected in 33% STAs and in 20% FTSHomas. Both STAs and FTSHomas showed a variety of morphological features and immunohistochemical profiles. Chromophobic polygonal or short-spindled tumor cells usually proliferated in a diffuse pattern, while they exhibited globoid or whorl-like appearance with intertwined cytoplasmic processes in both subgroups. Stromal fibrosis and calcification were often noted. Their nuclei were somehow pleomorphic. Ultrastructural features of all four STAs examined were similar to those of normal thyrotrophs. Thus, STAs and FTSHomas were indistinguishable by histology alone. Immunohistochemically, the number of TSH-positive cells in individual FTSHomas was highly various. Six tumors showed only a few TSH-positive cells (1–5%), and three were negative for TSH by conventional method without antigen retrieval. After proteinase K treatment, these tumors turned out TSH positive. As defined, STAs were TSH positive in more than 20% of tumor cells and three of them in more than 50%. Growth hormone- and/or prolactin-positive cells were detected in 55% STAs and 63% FTSHomas. Both pituitary-specific transcription factor 1 and GATA-binding protein 2 were expressed in all STAs and 20 FTSHomas. Membranous somatostatin receptor (SSTR)-2A immunoreactivity was found in 89% STAs and 94% FTSHomas, whereas SSTR5 was positive in 78% of both STAs and FTSHomas. MIB-1 labeling index was related to tumor invasiveness and tumor size (P < 0.05, P  = 0.09, respectively). Thus, although both STAs and FTSHomas showed unique histopathological features distinct from other type adenomas, these two subgroups were indistinguishable by histopathology. Immunohistochemistry for TSH by use of antigen retrieval, transcription factors, and SSTRs may be useful to confirm STAs and to determine the postoperative therapy among various kinds of clinically non-functioning adenomas.

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