Polymer-<I>Block</I>-Polypeptides and Polymer-Conjugated Hybrid Materials as Stimuli-Responsive Nanocarriers for Biomedical Applications

Abstract: Stimuli-responsive nanocarriers are a class of soft materials that includes natural polymers, synthetic polymers, and polypeptides. Recently, modern synthesis tools such as atom transfer radical polymerization, reversible addition-fragmentation chain transfer polymerization, nitroxide-mediated radical polymerization, ring-opening polymerization of α-amino acid N-carboxyanhydrides, and various "click" chemistry strategies were simultaneously employed for the design and synthesis of nanosized drug delivery vehic… Show more

“…Injection of heroin use increases the risk of acquiring HIV ( Friedman et al, 2003 ; Sagar et al, 2015 ) and progression to AIDS ( Ronald et al, 1994 ). However, because of the complexity of opioid addiction and/or HIV infection, it has been extremely difficult to compare different clinical and epidemiological findings in studying the impact of opioids on HIV disease progression ( Donahoe et al, 2009 ).…”

Heroin inhibits HIV-restriction miRNAs and enhances HIV infection of macrophages

“…Injection of heroin use increases the risk of acquiring HIV ( Friedman et al, 2003 ; Sagar et al, 2015 ) and progression to AIDS ( Ronald et al, 1994 ). However, because of the complexity of opioid addiction and/or HIV infection, it has been extremely difficult to compare different clinical and epidemiological findings in studying the impact of opioids on HIV disease progression ( Donahoe et al, 2009 ).…”

Heroin inhibits HIV-restriction miRNAs and enhances HIV infection of macrophages

“…Indeed, there are numerous examples in the literature where synthetic polymers have been used either as therapeutic macromolecules or as drug delivery vehicles upon combination with small drugs. [10][11][12] However, for real applications, synthetic polymers must fulfill a series of requirements such as being non-toxic, nonimmunogenic and water-soluble together with safe excretion properties, which in most cases become very difficult challenges. It is at this point where biocompatible and biodegradable natural polymers represent a versatile and renewable alternative to synthetic polymers.…”

Biodegradable liposome-encapsulated hydrogels for biomedical applications: a marriage of convenience

“…Many types of polymers have attracted interest recently for the development of polymeric nanomedicines, including natural polymers and semi‐synthetic polymers and several biocompatible polymer systems have been approved by the US Food and Drug administration (FDA) for human use . Drug‐delivery systems (DDSs) based on stimuli‐responsive polymers that aim to mimic biological response behavior are specifically beneficial in minimizing the systemic toxicity and improving the drug‐delivery efficiency . Of all the existing stimuli‐responsive systems, pH‐responsive polymers that alter their solubility, volume, or conformation under acidic conditions are attractive systems, because they can be used to trigger the release of therapeutic drugs in the slightly acidic environment of the tumor tissue, which is usually 0.5–1.0 pH units less than in normal tissue, or after the drug carrier has been taken up by the cells, resulting in the localization of the polymers in the acidic endosomes (pH 5.0–6.0) and lysosomes (pH 4.0–5.0) .…”

Phospholipid End‐Capped Acid‐Degradable Polyurethane Micelles for Intracellular Delivery of Cancer Therapeutics