Department of Pathology, Stanford University Medical Center, Stanford, California, United States of America.
PLoS One. 2011;6(11):e27410. doi: 10.1371/journal.pone.0027410. Epub 2011 Nov 11.
Cutaneous melanoma is a lethal malignancy that arises spontaneously or via in situ precursor neoplasms. While melanoma in situ and locally invasive malignant melanoma can be cured surgically, these lesions can sometimes be difficult to distinguish from melanocytic nevi. Thus, the identification of histolopathologic or molecular features that distinguish these biologically distinct lesions would represent an important advance. To this end, we determined the abundance of melanocytic primary cilia in a series of 62 cases composed of typical cutaneous melanocytic nevi, melanoma in situ, invasive melanoma, and metastatic melanoma. Primary cilia are sensory organelles that modulate developmental and adaptive signaling and notably, are substantially depleted from the neoplastic epithelium of pancreatic carcinoma at a stage equivalent to melanoma in situ. In this series, we find that while nearly all melanocytes in 22 melanocytic nevi possessed a primary cilium, a near-complete loss of this organelle was observed in 16 cases of melanoma in situ, in 16 unequivocal primary invasive melanomas, and in 8 metastatic tumors, each associated with a cutaneous primary lesion. These findings suggest that the primary cilium may be used to segregate cutaneous invasive melanoma and melanoma in situ from melanocytic nevi. Moreover, they place the loss of an organelle known to regulate oncogenic signaling at an early stage of melanoma development.
皮肤黑素瘤是一种致命的恶性肿瘤,自发产生或通过原位前体肿瘤产生。虽然原位黑素瘤和局部侵袭性恶性黑素瘤可以通过手术治愈,但这些病变有时很难与黑素细胞痣区分开来。因此,确定能够区分这些具有不同生物学特征的病变的组织病理学或分子特征将是一个重要的进展。为此,我们确定了 62 例典型皮肤黑素细胞痣、原位黑素瘤、侵袭性黑素瘤和转移性黑素瘤中黑素细胞初级纤毛的丰度。初级纤毛是调节发育和适应性信号的感觉器官,特别是在与原位黑素瘤相当的阶段,从胰腺癌的肿瘤上皮中大量缺失。在本系列中,我们发现,虽然在 22 例黑素细胞痣中的几乎所有黑素细胞都有初级纤毛,但在 16 例原位黑素瘤、16 例明确的原发性侵袭性黑素瘤和 8 例转移性肿瘤中,几乎完全失去了这种细胞器,每个病例都与一个皮肤原发性病变有关。这些发现表明,初级纤毛可能用于将皮肤侵袭性黑素瘤和原位黑素瘤与黑素细胞痣区分开来。此外,它们表明在黑素瘤发展的早期阶段,一种已知调节致癌信号的细胞器就已经丢失。