Industrial wastewater
often contains heavy metals, like lead, copper,
nickel, cadmium, zinc, mercury, arsenic, and chromium. Overdoses of
heavy metals will impose a severe threat to human health. Adsorption
is the most efficient way of wastewater treatment for eliminating
heavy metals. A novel material-reusable hydrogel-based adsorbent was
developed in overcoming the regeneration issue. The polyethylene glycol
diacrylate-3-sulfopropyl methacrylate potassium salt (PEGDA-SMP) hydrogel
performed an ion-exchange rate to remove heavy metals from wastewater
in 30–120 min. The adsorption capacity of PEGDA-SMP increases
the increasing pH of a solution, in which pH 5 reaches the maximum.
Pseudo-second-order adsorption and the Langmuir adsorption model can
fully describe the adsorption properties of PEGDA-SMP for heavy metals.
PEGDA-SMP prefers to exchange Pb2+ through K+, and its adsorption capacity can achieve 263.158 mg/g. Ag+, Zn2+, Ni2+, and Cu2+ were 227.27,
117.647, 102.041, and 99.010 mg/g, respectively. The hydrated ionic
radius of the heavy metal might play an essential role to affect the
adsorption preference. The removal efficiency of heavy metals can
approach over 95% for each heavy metal. PEGDA-SMP performs rapid desorption
and reaches desorption equilibrium in 15 min. After 10 consecutive
adsorption–desorption cycles, the adsorption capacity remained
over 90%. The hydrogel developed in this study showed reversible heavy
metal absorption. Therefore, excellent adsorption–desorption
properties of PEGDA-SMP can be potentially extended to industrial
wastewater for removing heavy metals.
DNA vaccination is a novel immunization strategy that possesses many potential advantages over other vaccine strategies. One of the major difficulties hindering the clinical application of DNA vaccination is the relative poor immunogenicity of DNA vaccines. Poly(methyl methacrylate) (PMMA) is a synthetic polymer approved by the Food and Drug Administration for certain human clinical applications such as the bone cement. In vivo, PMMA particles are phagocytosable and have the potential to initiate strong immune responses by stimulating the production of inflammatory cytokines. In this study, we synthesized a series of PMMA particles (PMMA 1-5) with different particle sizes and surface charges to test the feasibility of implementing such polymer particles for DNA vaccination. To our knowledge, this is the first report to show that the gene gun can deliver DNA vaccine by propelling PMMA particles mixed with plasmid DNA for cervical cancer. It was found that PMMA 4 particles (particle size: 460 +/- 160 nm, surface charge: +11.5 +/- 1.8 mV) stimulated the highest level of TNF-alpha production by macrophages in vitro and yielded the best result of antitumor protection in vivo. Therefore, our results possess the potential for translation and implementation of polymer particles in gene gun delivering DNA vaccination.
To find out whether close axonal injury resulted in greater free radical risk to cord-projection central neurons than distant ones, we studied the expressions of nitric oxide synthase, calcineurin, and superoxide dismutase in rat rubrospinal neurons following brainstem, C2 and T10 axotomies using immunohistochemical methods. We found that nitric oxide synthase expression was upregulated more following brainstem than C2 lesion while T10 lesion triggered no detectable changes. This response peaked at 1 week and returned to control level by 8-week-post-injury. At the same time, calcineurin, which activated nitric oxide synthase, was increased 1 week following brainstem and C2 axotomies. These suggest that close, but not distant, axotomy enhanced NO production, which appeared to be cytotoxic since blocking NO synthesis with N-nitro- l-arginine methyl ester reduced brainstem axotomy-induced rubrospinal cell loss. On the other hand, the mitochondrial Mn-superoxide dismutase, which competes with NO to prevent the formation of the cytotoxic free radical peroxynitrite, was notably reduced after brainstem but almost unaltered following C2 axotomy. Meanwhile, the cytosolic Cu/Zn-superoxide dismutase was not altered following C2 but increased after brainstem axotomy. Ultrastructurally, in rubrospinal neurons more mitochondria became swollen following brainstem than C2 axotomy. Based on these, we proposed that besides the NO-overproduction-induced toxicity, superoxide-loading-induced mitochondrial damage also added to hampering the survival of the closely axotomized neurons.
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