{"id":53692,"date":"2024-06-17T14:20:22","date_gmt":"2024-06-17T14:20:22","guid":{"rendered":"https:\/\/peymantaeidi.net\/stem-cell\/?p=53692"},"modified":"2024-06-17T15:36:42","modified_gmt":"2024-06-17T15:36:42","slug":"algae-based-microbots-deliver-cancer-drugs-directly-to-lung-tumors","status":"publish","type":"post","link":"https:\/\/peymantaeidi.net\/stem-cell\/2024\/06\/17\/algae-based-microbots-deliver-cancer-drugs-directly-to-lung-tumors\/","title":{"rendered":"Algae-Based Microbots Deliver Cancer Drugs Directly to Lung Tumors"},"content":{"rendered":"
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Combining biology and nanotechnology, researchers have developed algae-based \u201cmicrobots\u201d to deliver drugs directly to lung tumors in mice \u2013 with the approach showing promise for reducing tumor growth and increasing survival.<\/p>\n

Improving drug delivery to lung metastases<\/b><\/h2>\n

Cancers that spread \u2013 or metastasize \u2013 from other parts of the body into the lungs can represent challenging targets for treatment. Commonly used chemotherapy drugs can fail to directly reach the lungs, requiring new approaches to deliver therapies more effectively. <\/p>\n

In a new study, researchers from the University of California, San Diego (UCSD) built upon  previous<\/a> research in which they developed a type of microscopic robot, or \u201cmicrobot\u201d, to help treat pneumonia in mice \u2013 adapting it to target tumors in the lungs instead. The study is published in Science Advances<\/i><\/a>.<\/p>\n

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Formed from algae cells speckled with antibiotic-filled nanoparticles, the microbots could swim around the mouse lung and deliver antibiotics to the pneumonia-causing bacteria. All the microbot-treated mice survived, whereas untreated mice succumbed to their infection within three days.<\/p>\n

\u201cThose were the first microrobots to be safely tested in the lungs of live animals,\u201d said<\/a> the study\u2019s co-senior author Joseph Wang<\/a>, SAIC Endowed Chair in the Department of Nanoengineering at UCSD.<\/p>\n

Assembling a cancer-fighting \u201cmicrobot\u201d<\/b><\/h2>\n

The microbots are built from Chlamydomonas reinhardtii<\/i>, a species of green algae recognized as safe for use by the US Food and Drug Administration (FDA), which provide their movement. The researchers tweaked the microbots\u2019 components and tailored them to fight the spread of cancer cells in the lungs instead.<\/p>\n

Attached to their surface are nanoparticles made from tiny biodegradable polymer spheres loaded with doxorubicin, a common chemotherapy drug. These nanoparticles are coated with red blood cell membranes to protect them against the immune system, and to provide a type of \u201ccamouflage\u201d that aids their survival in the lungs long enough to deliver their anti-cancer payload.<\/p>\n

The researchers tested the microbots in mouse models of melanoma that had spread to the lungs, delivering them via a small tube inserted into the windpipe.<\/p>\n

Treated mice had a median survival of 37 days, compared to 27 days for the untreated mice. Treated mice also survived longer than those that received either the drug only or drug-filled nanoparticles without the algae.<\/p>\n

Illustration of the microrobots being administered through the trachea to treat metatstatic tumors in the lungs. Credit: Zhengxing Li<\/span><\/i><\/p>\n

\u201cWe demonstrate that this is a platform technology that can actively and efficiently deliver therapeutics throughout the entire lung tissue to combat different types of deadly diseases in the lungs,\u201d said<\/a> co-senior author Liangfeng Zhang<\/a>, the Joan and Irwin Jacobs Chancellor Professor at UCSD.<\/p>\n

\u201cThe active swimming motion of the microrobots significantly improved distribution of the drug to the deep lung tissue, while prolonging retention time,\u201d said<\/a> Zhengxing Li<\/a>, nanoengineering PhD student and co-first author of the study. \u201cThis enhanced distribution and prolonged retention time allowed us to reduce the required drug dosage, potentially reducing side effects while maintaining high survival efficacy.\u201d<\/p>\n

Future work for the team includes progressing to studies of the microbot treatment in larger animals, hoping to pave the way for human trials.<\/p>\n

Reference: <\/b>Zhang F, Guo Z, Li Z, et al. Biohybrid microrobots locally and actively deliver drug-loaded nanoparticles to inhibit the progression of lung metastasis. Sci Adv<\/i>. 2024;10(24):eadn6157. doi: 10.1126\/sciadv.adn6157<\/a><\/p>\n

This article is a rework of a press release<\/a> issued by the University of California, San Diego. Material has been edited for length and content.<\/span><\/i><\/p>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

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