机译:ACTH和α-亚基在罕见的人类垂体皮质激素细胞腺瘤中共表达,拟定起源于ACTH提交的早期垂体祖细胞
Department of Neurosurgery Nippon Medical School Bunkyo-Ku Tokyo Japan;
Department of Pathology Tokai University School of Medicine Boseidai Isehara City Kanagawa 259-1193 Japan;
Department of Pathology Tokai University School of Medicine Boseidai Isehara City Kanagawa 259-1193 Japan;
Department of Pathology Tokai University School of Medicine Boseidai Isehara City Kanagawa 259-1193 Japan;
Department of Pathology Tokai University School of Medicine Boseidai Isehara City Kanagawa 259-1193 Japan;
Department of Neurosurgery Nippon Medical School Bunkyo-Ku Tokyo Japan;
Department of Neurosurgery Nippon Medical School Bunkyo-Ku Tokyo Japan;
Department of Neurosurgery Nippon Medical School Bunkyo-Ku Tokyo Japan;
Department of Pathology Tokai University School of Medicine Boseidai Isehara City Kanagawa 259-1193 Japan;
pituitary adenomas; transcription factors; ACTH; alpha-subunits; differentiation; immunohistochemistry;
机译:ACTH和α-亚基在罕见的人类垂体皮质激素细胞腺瘤中共表达,拟定起源于ACTH致死的早期垂体祖细胞。
机译:Magmas是一种新发现的在人和小鼠分泌ACTH的垂体腺瘤中过度表达的基因,可保护垂体细胞免受凋亡刺激。
机译:在人类肿瘤垂体ACTH分泌细胞中,TPIT(一种皮质营养型特异性基因)没有突变。
机译:与垂体腺瘤细胞系持续递送糖皮质激素持续递送的病理生理学变化
机译:人类生长激素释放激素转基因小鼠的垂体前叶垂体激素分泌,表达和细胞数量的可塑性:专注于甘丙肽,生长激素和催乳激素。
机译:人ACTH分泌垂体腺瘤的细胞和分子特征中的性二态性。
机译:SOM230对人皮质科垂体腺瘤细胞增殖和肾上腺皮质激素分泌的影响