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• W167962912 abstract "Background Renal angiomyolipoma is a benign tumor histologically characterized by proliferation of spindle cells, epithelioid cells, and adipocytic cells in concert with many thick-walled blood vessels. To add further diagnostic confusion, an epithelioid cell-predominant variant of renal angiomyolipoma has recently been described. HMB-45 immunoreactivity correlates with ultrastructural striated organelles that closely resemble premelanosomes, although no evidence of melanogenesis has been documented in this tumor. Objective To further characterize the immunophenotypic and ultrastructural profile of renal angiomyolipoma based on phenotypic cell type (epithelioid, spindle, and adipocytic cell). Design Formalin-fixed, paraffin-embedded tissues from 27 renal angiomyolipomas and 8 renal cell carcinomas were immunostained with monoclonal antibodies to the melanoma-associated antigens HMB-45, HMB-50, NKI/C3 (CD63), and tyrosinase; the smooth muscle-related antigens calponin and muscle-specific actin (HHF-35); S100; and cytokeratin (CK). All renal angiomyolipomas were also immunostained with a polyclonal antibody to renin. Ultrastructural examination was performed on 9 selected cases. Results All renal angiomyolipomas stained positive for HMB-45, HMB-50, NKI/C3, muscle-specific actin (HHF-35), and calponin. Overall, HMB-45, HMB-50, and NKI/C3 preferentially stained the epithelioid cells. Tyrosinase staining was present in 50% of the renal angiomyolipomas with adequate tissue for staining (12 of 24 cases); positive staining and intensity paralleled HMB-45, HMB-50, and NKI/C3. Muscle-specific actin (HHF-35) and calponin preferentially stained the spindle cells. The adipocytic cells stained positive for both melanoma-associated antigens and smooth muscle antigens. Epithelioid cells, spindle cells, and adipocytic cells were CK, S100, and renin negative. Ultrastructural findings paralleled immunohistochemical staining patterns. Premelanosome-like organelles and electron dense granules were more readily detected in the epithelioid cells within the tumor, whereas ultrastructural characteristics of smooth muscle cells were more easily found in the spindle cells. All renal cell carcinomas stained positive for CK, NKI/C3 staining was variable, and all were negative for HMB-45, HMB-50, smooth muscle actin (HHF-35), and calponin. Conclusion In renal angiomyolipoma, the epithelioid and spindle cells have preferential staining patterns for melanoma-associated antigens versus smooth muscle antigens, respectively. Positivity in renal angiomyolipoma for HMB-50, NKI/C3, and tyrosinase, in addition to HMB-45, provides evidence for the presence of different melanoma-associated gene products. Immunophenotypic overlap of the 3 histologically distinct renal angiomyolipoma cell populations suggests a common cell line, supporting a unitarian concept for renal angiomyolipoma. Ultrastructural characteristics of the 3 renal angiomyolipoma cell phenotypes parallel the immunophenotype, giving further support to a common cell line. Our study lends further credence to the perivascular epithelioid cell concept as proposed by Bonetti and colleagues." @default.
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• W167962912 date "2001-06-01" @default.
• W167962912 modified "2023-10-17" @default.
• W167962912 title "Renal angiomyolipoma: further immunophenotypic characterization of an expanding morphologic spectrum." @default.
• W167962912 cites W1501827434 @default.
• W167962912 cites W1564336366 @default.
• W167962912 cites W1565077374 @default.
• W167962912 cites W172945457 @default.
• W167962912 cites W1795630182 @default.
• W167962912 cites W1964094465 @default.
• W167962912 cites W1967608299 @default.
• W167962912 cites W1970642161 @default.
• W167962912 cites W1991180996 @default.
• W167962912 cites W1997945215 @default.
• W167962912 cites W2001625267 @default.
• W167962912 cites W2004170342 @default.
• W167962912 cites W2009487928 @default.
• W167962912 cites W2013634832 @default.
• W167962912 cites W2013741570 @default.
• W167962912 cites W2019688193 @default.
• W167962912 cites W2021004786 @default.
• W167962912 cites W2023837496 @default.
• W167962912 cites W2029271656 @default.
• W167962912 cites W2033894049 @default.
• W167962912 cites W2038862276 @default.
• W167962912 cites W2042509775 @default.
• W167962912 cites W2044247453 @default.
• W167962912 cites W2045898536 @default.
• W167962912 cites W2050406290 @default.
• W167962912 cites W2050625970 @default.
• W167962912 cites W2057725964 @default.
• W167962912 cites W2059448070 @default.
• W167962912 cites W2065637050 @default.
• W167962912 cites W2070567648 @default.
• W167962912 cites W2079955710 @default.
• W167962912 cites W2081504309 @default.
• W167962912 cites W2086960178 @default.
• W167962912 cites W2095565507 @default.
• W167962912 cites W2103766839 @default.
• W167962912 cites W2114241929 @default.
• W167962912 cites W2120428186 @default.
• W167962912 cites W2123757213 @default.
• W167962912 cites W2142391882 @default.
• W167962912 cites W2286548709 @default.
• W167962912 cites W2295584279 @default.
• W167962912 cites W2301410434 @default.
• W167962912 cites W2320268942 @default.
• W167962912 cites W2397918307 @default.
• W167962912 cites W2401648228 @default.
• W167962912 cites W2408946739 @default.
• W167962912 cites W2465091388 @default.
• W167962912 cites W2472954482 @default.
• W167962912 cites W2473900445 @default.
• W167962912 cites W24912876 @default.
• W167962912 cites W47467920 @default.
• W167962912 cites W98422698 @default.
• W167962912 doi "https://doi.org/10.1043/0003-9985(2001)125<0751:ra>2.0.co;2" @default.
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