e15006 Background: Hemay181 is a novel broad-spectrum conjugated cytotoxic drug for treating advanced solid tumours. The drug exerts its inhibitory effect on tumour growth by releasing cytotoxic drug SN-38 in tumour tissues via β-glucuronidase (βGU) metabolism to inhibit the activity of topoisomerase I (TOP1). The water solubility of Hemay181 is increased > 5000-fold compared to SN-38. Hemay181 also binds to plasma albumin to form a macromolecular drug transporter, significantly improving the drug's pharmacokinetics. In addition, βGU has low activity in normal tissues, localised to the lysosomes, but is highly expressed in the hypoxic tumour microenvironment. Methods: In vitro and In Vivo studies showed Hemay181 inhibited growth in 29 human tumour cell lines and 16 human tumor Xenograft models, including colorectal cancer, gastric cancer, triple-negative breast cancer, head and neck cancer, pancreatic cancer, lung cancer, prostate cancer and melanoma. Results: In the absence of βGU, Hemay181 showed significantly weaker inhibitory activity than Hemay181+βGU or no significant inhibitory activity. In these In vitro studies with the addition of βGU, the activity was similar to SN-38, ranging from 3.9 nM to 159 nM. Hemay181 showed tumor selectivity with low activity against two normal human cell lines. The IC50 values of Hemay181 against Chang liver (normal liver cells) and MRC 5 (embryonic lung cells) were 318 nM and 14566 nM under non-enzymatic digestion conditions. In vivo, Hemay181 had significant inhibitory effects on the growth of human colorectal cancer, pancreatic cancer, head and neck cancer, triple-negative breast cancer, lung cancer, liver cancer, ovarian cancer and gastric cancer tumour models. The lowest effective dose of Hemay181 was 1.875mg/kg in the human colon cancer HCT116 model. Within the dose range of 3.75~60 mg/kg, the highest inhibitory rate of the above different tumour models could reach more than 90%. Hemay181 significantly reduced tumour volume compared to irinotecan, which only slowed the tumour growth rates. There was no significant decrease in the body weight of Hemay181 in these studies. In the colon cancer PDX model (CR0029) (30mg/kg), the tumour inhibition rate (TGI) was 78%. At 60mg/kg, in triple-negative breast cancer (BR1458) and non-small cell lung cancer (LU3075) PDX models, a TGI was 97% and 98%, respectively. At 60mg/kg, there was a significant tumour suppressive effect on larger tumours treated with irinotecan, with a reduction of tumour volume. In vitro , 1 μM Hemay181 is stable in CD1 mouse and SD rat plasma, with a minor degree of metabolism in beagle dog, cynomolgus monkey and human plasma. Conclusions: In summary, the novel broad-spectrum anti-tumour drug Hemay181 has the characteristics of high water solubility, tumour-targeting ability, low toxicity and side effects on normal tissues. It is under evaluation in ongoing clinical studies.
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