Potential biomarker for human uterine leiomyosarcoma.

Abstract

Sarcomas are a rare form of malignant tumor, with less than 15,000 new cases being diagnosed each year in the United States. In spite of their rarity, sarcomas are highly debilitating malignancies that are often associated with significant morbidity and mortality. They are also biologically very heterogeneous because they originate from many different tissues and cell types. Sarcomas have classically been defined by their tissue of origin and are additionally stratified according to their histopathology or the age of the patient at diagnosis. Uterine mesenchymal tumors that develop in the myometrium have traditionally been divided into benign uterine usual LMA, cellular LMA and malignant Ut-LMS based on cytological atypia, mitotic activity and other criteria. Ut-LMS is relatively rare, having an estimated annual incidence of 0.64 per 100,000 women [1], and is resistant to chemotherapy and radiotherapy; therefore, surgical interventions are virtually the only means of treatment [2, 3]. The prognosis of patients with Ut-LMS is poor, and the 5-year survival rate is approximately 35%. Uterine LMA may occur in 70-80% of women by the age of 50 years [4]. Difficulties have been reported in distinguishing Ut-LMS from other uterine mesenchymal tumors including uterine LMA, and a diagnosis generally requires surgery and cytoscopy. Diagnostic categories for uterine mesenchymal tumors and morphological criteria are used to assign cases. The non-standard subtypes of uterine mesenchymal tumors such as the epithelioid and myxoid types are classified in a different manner using these features; therefore, a diagnostic method needs to be established that can identify non-standard smooth muscle differentiation [5, 6]. High estrogen levels have been shown to significantly influence the development of tumors in the uterine body [7]. However, the molecular mechanisms underlying the transformation of uterine LMA and development of Ut-LMS remain unknown. Tumors that have developed and grown in the myometrium increase in size due to the influence of the female hormone, estrogen, which leads to the generation of more tumors. However, a relationship has not yet been reported between the development of Ut-LMS and hormonal conditions, and no obvious risk factors have been identified. The identification of risk factors associated with the development of human Ut-LMS will contribute significantly to the development of preventive and therapeutic treatments. Cytoplasmic proteins are mostly degraded by a protease complex referred to as the 20S proteasome, which has many substrates that consist of twenty-eight 20 to 30 kDa subunits [8, 9]. Proteasomal degradation is essential for many cellular processes, including the cell cycle, regulation of gene expression and immunological function [10]. A previous study reported that an interferon (IFN)-γ treatment induced the expression of large numbers of responsive genes, the β-ring subunits of proteasomes, i.e., low-molecular mass polypeptide (LMP)2/β1i, LMP7/β5i and LMP10/multicatalytic endopeptidase complex-like (MECL)-1/β2i [11]. Ut-LMS was detected in female LMP2/β1ideficient mice at 6 months or older, and its incidence at 14 months was approximately 40% [12]. Histopathological studies of LMP2/ β1i-lacking uterine tumors have revealed the characteristic abnormalities of Ut-LMS [12]. The non-standard subtypes of uterine mesenchymal tumors such as the epithelioid and myxoid types have been classified in a Manuscript accepted for publication May 15, 2014