Radha Munagala scite author profile

Exosomes are biological nanovesicles that are involved in cell-cell communication via the functionally-active cargo (such as miRNA, mRNA, DNA and proteins). Because of their nanosize, exosomes are explored as nanodevices for the development of new therapeutic applications. However, bulk, safe and cost-effective production of exosomes is not available. Here, we show that bovine milk can serve as a scalable source of exosomes that can act as a carrier for chemotherapeutic/chemopreventive agents. Drug-loaded exosomes showed significantly higher efficacy compared to free drug in cell culture studies and against lung tumor xenografts in vivo. Moreover, tumor targeting ligands such as folate increased cancer-cell targeting of the exosomes resulting in enhanced tumor reduction. Milk exosomes exhibited cross-species tolerance with no adverse immune and inflammatory response. Thus, we show the versatility of milk exosomes with respect to the cargo it can carry and ability to achieve tumor targetability. This is the first report to identify a biocompatible and cost-effective means of exosomes to enhance oral bioavailability, improve efficacy and safety of drugs.

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Milk-derived exosomes for oral delivery of paclitaxel

Agrawal

Aqil

Jeyabalan

et al. 2017

Nanomedicine: Nanotechnology, Biology and Medicine

426

296

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Exosomes for the Enhanced Tissue Bioavailability and Efficacy of Curcumin

Aqil

Munagala

Jeyabalan

et al. 2017

AAPS J

233

196

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Exosomes are extracellular microvesicles with a particle size of 30-100 nm and carry a cargo of proteins, lipids, RNA, and DNA. Their properties of shuttling in-and-out of the cells suggest that these particles can be exploited as a nano drug carrier. In this manuscript, we show that curcumin can be delivered effectively using milk-derived exosomes. Curcumin when mixed with exosomes in the presence of 10% ethanol:acetonitrile (1:1) provided a drug load of 18-24%, and the formulation stored at - 80°C was stable for 6 months as determined by particle size analysis, drug load, and antiproliferative activity. The uptake of exosomes by cancer cells involved caveolae/clathrin-mediated endocytosis. Oral administration of exosomal curcumin (ExoCUR) in Sprague-Dawley rats demonstrated 3-5 times higher levels in various organs versus free agent. ExoCUR showed enhanced antiproliferative activity against multiple cancer cell lines including, breast, lung, and cervical cancer compared with the free curcumin. ExoCUR showed significantly higher anti-inflammatory activity measured as NF-κB activation in human lung and breast cancer cells. To determine in vivo antitumor activity, nude mice bearing the cervical CaSki tumor xenograft were treated with ExoCUR by oral gavage, curcumin diet, exosomes alone, and PBS as controls. While curcumin via dietary route failed to elicit any effect, exosomes had a modest (25-30%) tumor growth inhibition. However, ExoCUR showed significant inhibition (61%; p < 0.01) of the cervical tumor xenograft. No gross or systemic toxicity was observed in the rats administered with the exosomes or ExoCUR. These results suggest that exosomes can be developed as potential nano carriers for delivering curcumin which otherwise has encountered significant tissue bioavailability issues in the past.

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Radha Munagala

Bovine milk-derived exosomes for drug delivery

Milk-derived exosomes for oral delivery of paclitaxel

Exosomes for the Enhanced Tissue Bioavailability and Efficacy of Curcumin

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