1. ¹University of Pennsylvania Medical Center, Philadelphia, PA, USA
2. ²Cleveland Clinic Foundation, Cleveland, OH, USA
3. ³Temple University, Philadelphia, PA, USA

Correspondence: Dr RR Seethala, MD, 6 Founders, Department of Pathology, 3400 Spruce Street, Philadelphia, PA 19104, USA. E-mail: seethalr@uphs.upenn.edu

Received 6 October 2003; Revised 18 March 2004; Accepted 13 May 2004; Published online 18 June 2004.

Abstract

Microphthalmia-associated transcription factor (Mitf), a member of the helix–loop–helix transcription factor subfamily, normally expressed in mononuclear and multinucleated osteoclasts, is involved in the terminal differentiation of osteoclasts. Dysfunction of osteoclast activity resulting from abnormal Mitf expression has been implicated in osteopetrosis. Numerous other giant cells of various types including osteoclast-like giant cells seen in various tumors, traditionally thought to be monocyte derived, are seen in a variety of bone and extraosseous lesions. Using a monoclonal antibody with a standard immunohistochemical technique on paraffin sections, we evaluated expression of Mitf in 89 various giant cell lesions including giant cell tumor of bone (n26), giant cell tumor of tendon sheath/pigmented villonodular synovitis (n24), giant cell reparative granuloma (n3), aneurysmal bone cysts (n11), chondroblastomas (n7), foreign body giant cell reaction (n10), and sarcoidosis (n8). We also evaluated three cases of osteopetrosis and 27 various tissues without monocyte-derived giant cells (nine bone marrows, nine products of conception, seven lymph nodes with sinus histiocytosis, one granulation tissue and one thymus). Nuclear Mitf immunoreactivity was evaluated. Mitf was variably expressed in the monocyte-derived giant cells and/or the adjacent mononuclear cells/histiocytes in 23 (89%) giant cell tumors of the bone, 23 (96%) giant cell tumors of tendon sheath/pigmented villonodular synovitis, three (100%) giant cell reparative granuloma, eight (73%) aneurysmal bone cysts, five (71%) chondroblastomas, eight (80%) foreign-body giant cell reactions, and six (75%) sarcoidoses. No Mitf immunoreactivity was detected in cases of osteopetrosis and giant cells of nonmonocyte origin. Mitf immunoreactivity is rare in tissues with rich mononuclear cells/histiocytes but no monocyte derived giant cells. These findings support the notion that giant cells in giant cell lesions are likely derived from adjacent mononuclear cells and Mitf might play a role in the multinucleation process of such cells.