Abstract 251: MCAM controls mammary cell state in luminal progenitor-derived breast cancer and alveologenesis

Abstract

Abstract To establish and maintain functional and properly formed tissues, cells must integrate cues from their environment into fate decisions. External cues—from other cells and the extracellular matrix for instance—must be met with appropriate responses to ensure cell fate decisions that control lineage plasticity and favor proper development, maintenance, or regeneration of tissues while suppressing neoplastic transformation. MCAM (CD146; MUC18; S-endo-1; and Gicerin) is an integral membrane glycoprotein whose misexpression is associated with a variety of epithelial cancers, including breast cancer. However, the mechanisms by which MCAM conveys extracellular cues into malignant cellular outputs is not well understood. Our observation that MCAM is normally expressed in transplantable fetal and adult mammary stem cells (MaSCs) with multilineage potential, suggested it could control mammary cell state plasticity in both neoplastic and normal mammary tissue. Using a plastic, mouse mammary tumor cell line derived from the MMTV-PyMT mouse (Py230) that has been reported to exhibit mammary stem cell and luminal progenitor features, we tested the role of Mcam in controlling the tumorigenicity and lineage/cell-state relationships of mammary tumor cells. We found that Mcam knockdown in Py230 cells increases STAT3 expression, activation, and downstream target transcription, leading to a shift in the predominant cell state away from a luminal progenitor state toward more differentiated alveolar and basal phenotypes. Mechanistically, these changes involve altered activity of casein kinase II (CK2) against multiple substrates including STAT3 and PTEN. This effect may be mediated by direct coupling and sequestration of CK2 to various substrates via the cytoplasmic tail of MCAM. We have also found that inhibition of Ck2 or Stat3 reversed the transcriptional state change elicited by Mcam knockdown. In grafted tumors in vivo, this state switch correlates with reduced overall tumorigenicity and attenuated expression of Sox10, a gatekeeper of neural crest-like invasive features. In the normal gland, we hypothesize that this activity regulates multilineage stem cell potential upon transplantation and multilineage regenerative potential across lactation/involution cycles as we found reciprocal expression patterns for MCAM and STAT3 in alveolar mammary epithelial cells. These data point to an integral role for MCAM in lineage plasticity of normal mammary epithelial cells that is co-opted during transformation to potentiate tumor cell plasticity, progression, and evasion of targeted cancer therapies. Citation Format: Brooke L. Gates, Ozlen Balcioglu, David W. Freeman, Berhane M. Hagos, Benjamin T. Spike. MCAM controls mammary cell state in luminal progenitor-derived breast cancer and alveologenesis [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 251.