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Merck

Limiting Self-Renewal of the Basal Compartment by PKA Activation Induces Differentiation and Alters the Evolution of Mammary Tumors.

Developmental cell (2020-10-30)
Nevena B Ognjenovic, Meisam Bagheri, Gadisti Aisha Mohamed, Ke Xu, Youdinghuan Chen, Mohamed Ashick Mohamed Saleem, Meredith S Brown, Shivashankar H Nagaraj, Kristen E Muller, Scott A Gerber, Brock C Christensen, Diwakar R Pattabiraman
ABSTRAKT

Differentiation therapy utilizes our understanding of the hierarchy of cellular systems to pharmacologically induce a shift toward terminal commitment. While this approach has been a paradigm in treating certain hematological malignancies, efforts to translate this success to solid tumors have met with limited success. Mammary-specific activation of PKA in mouse models leads to aberrant differentiation and diminished self-renewing potential of the basal compartment, which harbors mammary repopulating cells. PKA activation results in tumors that are more benign, exhibiting reduced metastatic propensity, loss of tumor-initiating potential, and increased sensitivity to chemotherapy. Analysis of tumor histopathology revealed features of overt differentiation with papillary characteristics. Longitudinal single-cell profiling at the hyperplasia and tumor stages uncovered an altered path of tumor evolution whereby PKA curtails the emergence of aggressive subpopulations. Acting through the repression of SOX4, PKA activation promotes tumor differentiation and represents a possible adjuvant to chemotherapy for certain breast cancers.

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General Purpose Viscosity Standard; UKAS ISO/IEC17025 and ISO 17034 certified, viscosity 4599 mPa.s (25 °C)