Multistage vector (MSV) therapeutics

Wolfram, Joy; Shen, Haifa; Ferrari, Mauro

doi:10.1016/j.jconrel.2015.08.010

Cited by 51 publications

(51 citation statements)

References 125 publications

(194 reference statements)

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“…Recently, multistage nanovectors (i.e. disk-shaped porous silicon [33–35]) were developed to strategically overcome the body’s biological barriers through unique size and shape tailoring (Figure 1). Researchers demonstrated that the degradation rates increase significantly as pore size increases [36].…”

Section: Significance and Overview Of Nanotechnologymentioning

confidence: 99%

The Emerging Role of Nanotechnology in Cell and Organ Transplantation

Tasciotti

Cabrera²,

Evangelopoulos³

et al. 2016

Transplantation

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Transplantation is often the only choice many patients have when suffering from end stage organ failure. Although the quality of life improves after transplantation, challenges such as organ shortages, necessary immunosuppression with associated complications and chronic graft rejection limits its wide clinical application. Nanotechnology has emerged in the past two decades as a field with the potential to satisfy clinical needs in the area of targeted and sustained drug delivery, non-invasive imaging, and tissue engineering. In this paper, we provide an overview of popular nanotechnologies and a summary of the current and potential uses of nanotechnology in cell and organ transplantation.

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Section: Significance and Overview Of Nanotechnologymentioning

confidence: 99%

The Emerging Role of Nanotechnology in Cell and Organ Transplantation

Tasciotti

Cabrera²,

Evangelopoulos³

et al. 2016

Transplantation

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“…In particular, our group previously demonstrated cellular membranes of circulating leukocytes could be easily isolated and transferred onto the surface of synthetic nanocarriers while maintaining key biological functions. These carriers, referred to as Leukolike Vectors (LLV) [4], are composed of a loadable [5], biodegradable [6, 7], and biocompatible [8, 9] multistage nanovector (MSV) [10–13] core with a proteolipid outer shell purified from leukocyte cell membrane (CM). This outer layer was shown to retain membrane proteins [14] that are critical for increased adhesion towards inflamed endothelium [15] while also providing prolonged circulation time [16].…”

Section: Introductionmentioning

confidence: 99%

Cell source determines the immunological impact of biomimetic nanoparticles

et al. 2016

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Recently, engineering the surface of nanotherapeutics with biologics to provide them with superior biocompatibility and targeting towards pathological tissues has gained significant popularity. Although the functionalization of drug delivery vectors with cellular materials has been shown to provide synthetic particles with unique biological properties, these approaches may have undesirable immunological repercussions upon systemic administration. Herein, we comparatively analyzed unmodified multistage nanovectors and particles functionalized with murine and human leukocyte cellular membrane, dubbed Leukolike Vectors (LLV), and the immunological effects that may arise in vitro and in vivo. Previously, LLV demonstrated an avoidance of opsonization and phagocytosis, in addition to superior targeting of inflammation and prolonged circulation. In this work, we performed a comprehensive evaluation of the importance of the source of cellular membrane in increasing their systemic tolerance and minimizing an inflammatory response. Time-lapse microscopy revealed LLV developed using a cellular coating derived from a murine (i.e., syngeneic) source resulted in an active avoidance of uptake by macrophage cells. Additionally, LLV composed of a murine membrane were found to have decreased uptake in the liver with no significant effect on hepatic function. As biomimicry continues to develop, this work demonstrates the necessity to consider the source of biological material in the development of future drug delivery carriers.

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“…Indeed, numerous nanoparticles have been designed for medical applications, and several have received clinical approval [9,10]. Here, we have used a porous silicon-based multistage vector (MSV), rationally designed to deliver therapeutic agents to neoplastic tissue [11,12]. The MSV nanodelivery system was introduced in 2008 as one of the first platforms in which various components can sequentially be released to overcome biological barriers.…”

Section: Introductionmentioning

confidence: 99%

“…it operates as a delivery system for nanoparticles [12]. This multifaceted approach enables the MSV to address various transport barriers in the body [29], resulting in increased exposure of drugs to pathological tissue.…”

Section: Introductionmentioning

confidence: 99%

“…This multifaceted approach enables the MSV to address various transport barriers in the body [29], resulting in increased exposure of drugs to pathological tissue. In particular, the micron-sized dimensions and discoidal shape of the MSV is designed to permit maximal margination and cell surface adhesion [12]. These advantages have resulted in improved therapeutic efficacy compared to conventional nanodelivery systems.…”

Section: Introductionmentioning

confidence: 99%

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