果冻影院

The findings in mice, published in the journal听惭贰顿, are the first to demonstrate that inhibiting the activity of LRG1, a protein produced in many tumorous tissues, liberates disorganised angiogenesis (blood vessel formation) 鈥� a leading cause of morbidity in numerous diseases including cancer.

Researchers say the novel drug听offers the potential to achieve a far better outcome in patients who respond poorly to current standard of care for cancers, including those of the听breast, colon, bladder, prostate, and lung.

Furthermore, researchers also found the antibody significantly enhanced the ability of immunotherapies to reduce solid tumours, including cancers resistant to immune checkpoint inhibitors* and CAR T-cell** therapy, something that clinicians and scientists have struggled to overcome.

Explaining the study,听co-lead author, Professor John Greenwood (果冻影院 Institute of Ophthalmology) said: 鈥淐ancers need a blood supply to grow, but when new vessels form inside a tumour they are typically abnormal, resulting in compromised oxygen delivery that may render the tumour more aggressive.

鈥淭his impaired blood supply also limits the delivery of therapies reducing their effectiveness and contributing to treatment resistance. We asked whether blocking the activity of a novel molecule that damages blood vessels, namely LRG1, would allow vessels to grow more normally thus reducing tumour expansion and, most importantly, enhancing the delivery and efficacy of other drugs.鈥�

For the study, a 果冻影院-developed听LRG1-blocking antibody听was administered to听tumour-bearing mice in the presence and absence of various cancer therapeutics, simulating similar treatment courses as found in humans.

In the models of cancer examined, the antibody, when used alone (monotherapy), significantly improved blood flow and oxygenation and reduced tumour growth rates. When combined with chemotherapy, or new immunotherapies which have shown less utility in solid tumours, such as carcinomas and glioblastomas, there was an increase in immune cell infiltration and tumour cell killing activity inside the tumour compared to monotherapy.

Co-lead author Professor Stephen Moss听(果冻影院 Institute of Ophthalmology)听said: 鈥淎lthough counterintuitive, finding a way to normalise cancerous tumour blood vessels has become a clinical objective, but identifying an effective therapeutic tool has proven elusive.

鈥淥ur results provide direct evidence that blocking the LRG1 protein, which is produced at high levels in tumours, normalises the vasculature and enhances the current sub-optimal effectiveness of immunotherapies, including checkpoint inhibition and CAR-T cell therapy, in solid cancers.

鈥淭his opens up the potential to achieve a far better result in many cancer patients who respond poorly to current standard of care.鈥�

Discovering the role of LRG1 in eye disease

In 2008, the same research team based at the 果冻影院 Institute of Ophthalmology discovered LRG1 was a potent stimulator of abnormal angiogenesis in the human eye, and contributes to vascular problems associated with conditions such as diabetic retinopathy and wet age-related macular degeneration (AMD). This discovery was published in the journal听Nature听in 2013 and led to the development of a therapeutic antibody targeting LRG1 for the treatment of eye diseases, which was successfully trialled in mice.

For this latest study, the researchers used the same therapeutic antibody to see if it would block LRG1 and normalise angiogenesis in cancerous tumours and whether this improves the effectiveness of various current sub-optimal cancer treatments.

Next steps

The research team have developed a human version of the LRG1-blocking antibody, named Magacizumab, that is ready to progress to clinical trials in patients with cancer and eye disease.

With support from 果冻影院 Business and the 果冻影院 Technology Fund, a spin-out company called PanAngium Therapeutics, has been created to accelerate future clinical developments of the drug.

This research was supported by funding from Wellcome, the Medical Research Council and the British Heart Foundation.

* Checkpoint inhibitors are a type of immunotherapy that stops cancer cells from 鈥榮witching off鈥� the body鈥檚 immune response. While effective in some, not all patients respond to treatment. 听

**In CAR T therapy, immune cells (T-cells) are genetically engineered to contain a molecule called a chimeric antigen receptor (CAR) on their surface which can specifically recognise cancerous cells. While effective in some, not all patients respond to treatment.听

尝颈苍办蝉听

• 果冻影院 Institute of Ophthamology

Image

• Abnormal tumor vessel function is pro-oncogenic and restricts the delivery of
  therapeutics. Credit: MED

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