Studies in three mouse models of breast cancer identified profound discrepancies between cell autonomous and systemic Akt1 or Akt2 deletion on breast cancer tumorigenesis and metastasis. First, unlike systemic Akt1 deletion, which inhibits metastasis, cell autonomous Akt1 deletion does not. Second, systemic Akt2 deletion does not inhibit mammary tumorigenesis and metastasis, but cell autonomous Akt2 deletion eliminates ErbB2 expressing cells in the mammary gland and prevents tumorigenesis. However, the elevation in insulin by Akt2 systemic deletion hyperactivates tumor Akt, enabling ErbB2 expression, and exacerbates mammary tumorigenesis. Decreasing insulin level inhibits accelerated tumorigenesis by systemic Akt2 deletion. Single cell mRNA sequencing revealed that systemic Akt1 deletion maintains the pro-metastatic cluster within primary tumors but ablates pro-metastatic neutrophils. Systemic Akt1 deletion inhibits metastasis by impairing the survival and mobilization of tumor-associated neutrophils. Importantly, neutrophil-specific deletion of Akt1 is sufficient to exert resistance to metastasis. The results underscore the importance of determining systemic effects rather than cell autonomous effects as a proof of concept for cancer therapy.
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