Abstract

Abstract Cytokeratins are frequently found in the blood and bone marrow of patients with epithelial cancers and are attributed to metastasis. We wondered whether we could find keratin expression in blood and bone marrow in untreated adult mice. To address this problem, we have used classical immunoreactivity, Krt1-14;mTmG transgenic mice together with fluorescence activated cell sorting, and quantitative reverse transcriptase polymerase chain reaction. We have made several novel findings. First, we discovered, rare but distinctive, keratin-14 and keratin-15 immunoreactive cells the size of small lymphocytes in blood and bone marrow of untreated mice. Second, using Krt1-14;mTmG transgenic mice, we found low (8.6 GFP positive cells per 10^6 cells analyzed), but significant numbers (p&lt0.0005) of GFP positive cells in bone marrow of normal adult mice when compared with negative controls. Third, qRT-PCR demonstrated very low but reproducibly detectable expression of keratin-14 mRNA in blood and bone marrow when compared with epidermal keratinocytes: with blood expressing one thousand times, and bone marrow, one hundred thousand times, less than epidermal keratinocytes. Moreover, FACS analysis of fresh bone marrow disclosed a subpopulation of keratin-14 immunoreactive cells that was negative for hematopoietic lineage markers. Furthermore, and even more curious, recipients of bone marrow transplants from DMBA-treated UBC/GFP mice (“toxic bone marrow”) developed GFP-immunoreactive skin tumors upon TPA tumor promotion: four of fifteen mice developed GFP-immunoreactive skin tumors. Of these tumors, four were squamous papillomas, and one was a squamous cell carcinoma. None of the ten control mice receiving normal whole bone marrow developed any skin tumors upon tumor promotion. We conclude from these observations that keratin-14 protein and mRNA are expressed at low, but detectable levels in the blood and bone marrow of mice, and that a subset of “toxic bone marrow” derived cells can be recruited to form epithelial benign and malignant squamous tumors. Building upon these observations should open new avenues of understanding for cutaneous biology, non-melanoma skin cancer, and other epithelia and their cancers. Citation Format: Sonali Lad, Kelly Johnson, Kelsey Boland, Nyssa Readio, Todd Schuster, Yong Li, Derek Gordon, Rebecca J. Morris. Evidence for cutaneous squamous tumors derived from carcinogen-exposed bone marrow [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr LB-332.

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