Adenosine signaling is part of the normal immune response: it helps shut off the immune system to avoid a response that is too strong, which could lead to a harmful autoimmune reaction and potential tissue injury. Tumours can hijack the adenosine pathway to signal to immune cells that a response is not needed, allowing the cancer to evade an immune response.¹  AstraZeneca is evaluating various ways of interrupting the immunosuppressive process of the adenosine pathway to allow a robust immune response against cancer to successfully take place.

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Irregular activity of the WEE1 kinase, a kinase regulator of cell cycle checkpoints in healthy cells,^2,3 has been linked to cancers such as ovarian and non-small cell lung cancer.^4,5 Inhibiting this activity has demonstrated interference with DNA damage response within tumour cells and can eventually lead to their death.⁶ AstraZeneca is currently evaluating an investigational, highly selective WEE1 inhibitor designed to leverage this mechanism for a variety of solid tumours.

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Many cellular processes are regulated by a signaling network composed of three key enzymes, but this network is often disrupted in a number of cancers.^7,8,9 Gene amplification of AKT (protein kinase B) has been identified as a tumour driver, and its mutations are thought to mediate resistance to conventional chemotherapies.¹⁰ AstraZeneca is currently exploring an investigational pan AKT-kinase inhibitor as a potential treatment for advanced solid tumours and metastatic malignancies.

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In about 70% of breast cancers, specific oestrogen receptors are over-expressed, and even when patients are treated with current therapies targeting this driver, many still progress.^11,12 To address this need for effective treatment alternatives, AstraZeneca is currently developing a selective oestrogen receptor downregulator, an innovative investigational molecule being explored in clinical trials as a potential oral treatment for types of advanced breast cancers with certain receptor mutations.

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HER2 is a tyrosine kinase receptor growth-promoting protein found on the surface of some cancer cells that is associated with aggressive disease and poorer prognosis in breast cancer patients.¹³ To be considered HER2-positive, tumour cancer cells are usually tested by one of two methods: immunohistochemistry (IHC) or fluorescent in situ hybridization (FISH).¹⁴ AstraZeneca has entered into a collaboration with Daiichi Sankyo to jointly develop and commercialise an antibody drug conjugate (ADC) designed to delivery cytotoxic chemotherapy via a human epidermal receptor 2 (HER2) antibody for breast and gastric cancer.

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Breast cancer susceptibility genes 1/2 (BRCA1 and BRCA2) produce proteins responsible for repairing damaged DNA and play an important role maintaining the genetic stability of cells.¹⁵ When either of these genes is mutated, or altered, DNA damage may not be repaired properly, increasing the chance of additional genetic alterations that can lead to cancer.¹⁵ AstraZeneca is developing treatments that block DNA damage response in cells across a broad range of cancers.