More than 20 consensus N-linked glycosylation sites occur in the gpl20 coding sequence of most isolates of human immunodeficiency virus type 1. Based on the N-linked glycosylation pattern of a well-characterized recombinant gpl20, it is likely that N-linked sugars are present at most, if not all, of the consensus glycosylation sites of the heavily glycosylated gpl20. In this study, we evaluated the relative importance of each of the 24 N-linked glycosylation sites of gpl20 in the molecular clone HXB2 to viral infectivity. The ability of HXB2-derived mutants, each having 1 of the 24 N-linked glycosylation sites mutated by site-directed mutagenesis, to infect CD4-positive SupTl cells was compared with that of the wild-type virus. We found that most of the individual consensus N-linked glycosylation sites are dispensable for viral infectivity. The five consensus N-linked glycosylation sites that are likely to have important roles in infectivity are all located in the amino-terminal half of gp120, indicating that the N-linked glycosylation sites that are important for infectivity of human immunodeficiency virus type 1 are not randomly distributed in gpl20. We predict that a partially glycosylated gp120 with most of the dispensable N-linked glycosylation sites removed may be a better vaccine candidate than the fully glycosylated gpl20.
This study indicates that low-frequency repetitive transcranial magnetic stimulation of the unimpaired hemisphere might improve visual spatial neglect after stroke and points to the need for further studies. The results support the theory of inter-hemispheric competition in the attentional network.
The absence of targeted, single treatment methods produces low therapeutic value for treating cancers. To increase the accumulation of drugs in tumors and improve the treatment effectiveness, near-infrared 808 nm photothermal responsive dual aptamers-targeted docetaxel (DTX)-containing nanoparticles is proposed. In this system, DTX and NH HCO are loaded in thermosensitive liposomes. The surface of liposomes is coated with gold nanoshells and connected with sulfydryl (SH) modified AS1411 and S2.2 aptamers. The nanosystem has good biocompatibility and uniform size (diameter about 200 nm). The drug is rapidly released, reaching a maximum amount (84%) at 4 h under 808 nm laser irradiation. The experiments conducted in vitro and in vivo demonstrate the nanosystem can synergistically inhibit tumor growth by combination of chemotherapy, photothermal therapy, and biological therapy. Dual ligand functionalization significantly increases cellular uptake on breast cancer cell line (MCF-7) cells and achieves ultrasound imaging (USI) at tumor site. The results indicate that this drug delivery system is a promising theranostic agent involving light-thermal response at tumor sites, dual ligand targeted triplex therapy, and USI.
Dense extracellular matrix (ECM) severely impedes the spread of
drugs in solid tumors and induces hypoxia, reducing chemotherapy efficiency.
Different proteolytic enzymes, such as collagenase (Col) or bromelain,
can directly attach to the surface of nanoparticles and improve their
diffusion, but the method of ligation may also impair the enzymatic
activity due to conformational changes or blockage of the active site.
Herein, a “nanoenzyme capsule” was constructed by combining
collagenase nanocapsules (Col-nc) with heavy-chain ferritin (HFn)
nanocages encapsulating the chemotherapy drug doxorubicin (DOX) to
enhance tumor penetration of the nanoparticles by hydrolyzing collagen
from the ECM. Col-nc could protect the activity of the enzyme before
reaching the site of action while being degraded under mildly acidic
conditions in tumors, and the released proteolytic enzyme could digest
collagen. In addition, HFn as a carrier could effectively load DOX
and had a self-targeting ability, enabling the nanoparticles to internalize
into cancer cells more effectively. From in vivo and in vitro studies,
we found that collagen was effectively degraded by Col-nc/HFn(DOX)
to increase the accumulation and penetration of nanoparticles in the
solid tumor site and could alleviate hypoxia inside the tumor to enhance
the antitumor effects of DOX. Therefore, the strategy of increasing
nanoparticle penetration in this system is expected to provide a potential
approach for the clinical treatment of solid tumors.
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