Functionally
modified aptamer conjugates are promising tools for
targeted imaging or treatment of various diseases. However, broad
applications of aptamer molecules are limited by their in
vivo instability. To overcome this challenge, current strategies
mostly rely on covalent chemical modification of aptamers, a complicated
process that requires case-by-case sequence design, multiple-step
synthesis, and purification. Herein, we report a covalent modification-free
strategy to enhance the in vivo stability of aptamers.
This strategy simply utilizes one-step molecular engineering of aptamers
with gold nanoclusters (GNCs) to form GNCs@aptamer self-assemblies.
Using Sgc8 as a representative aptamer, the resulting GNCs@Sgc8 assemblies
enhance cancer-cell-specific binding and sequential internalization
by a receptor-mediated endocytosis pathway. Importantly, the GNCs@aptamer
self-assemblies resist nuclease degradation for as long as 48 h, compared
to the degradation of aptamer alone at 3 h. In parallel, the tumor-targeted
recognition and retention of GNCs@aptamer self-assemblies are dramatically
enhanced, indicated by a 9-fold signal increase inside the tumor compared
to the aptamer alone. This strategy is to avoid complicated chemical
modification of aptamers and can be extended to all aptamers. Our
work provides a simple, effective, and universal strategy for enhancing
the in vivo stability of any aptamer or its conjugates,
thus expanding their imaging and therapeutic applications.
Maternal over-nutrition may predispose offspring to obesity, type 2 diabetes and other adult diseases. The present study investigated long-term impact of prenatal high sucrose (HS) diets on cognitive capabilities in aged rat offspring. The fasting plasma glucose concentration did not differ between the control and HS groups. However, the fasting plasma insulin and insulin resistance index values were significantly increased in HS offspring that showed abnormal glucose tolerance test. HS offspring exhibited increased escape latency and swimming path length to the platform, and reduced time in the target quadrant and the number of crossing the platform, as compared with the control group. The expression of Grin2b/NR2B, Wnt2, Wnt3a and active form of β-catenin protein were decreased, and Dickkopf-related protein 1 was increased in the HS group. In addition, the levels of lipid peroxidation biomarker thiobarbituricacid reactive substance, nicotinamide adenine dinucleotide phosphate oxidases 2 and superoxide dismutase 1 were significantly increased, and the activity of catalase was decreased in the hippocampus in the HS group. The results demonstrate that prenatal HS-induced metabolic changes cause cognitive deficits in aged rat offspring, probably due to altered N-methyl-D-aspartate receptors/Wnt signaling and oxidative stress in the hippocampus.
The present study tested the hypothesis that angiotensin II plays a role in the regulation of placental vascular tone, which contributes to hypertension in preeclampsia. Functional and molecular assays were performed in large and micro placental and non-placental vessels from humans and animals. In human placental vessels, angiotensin II induced vasoconstrictions in 78.7% vessels in 155 tests, as referenced to KCl-induced contractions. In contrast, phenylephrine only produced contractions in 3.0% of 133 tests. In non-placental vessels, phenylephrine induced contractions in 76.0% of 67 tests, whereas angiotensin II failed to produce contractions in 75 tests. Similar results were obtained in animal placental and non-placental vessels. Compared with non-placental vessels, angiotensin II receptors and β -adrenoceptors were significantly increased in placental vessels. Compared to the vessels from normal pregnancy, angiotensin II-induced vasoconstrictions were significantly reduced in preeclamptic placentas, which was associated with a decrease in angiotensin II receptors. In addition, angiotensin II and angiotensin converting enzyme in the maternal-placenta circulation in preeclampsia were increased, whereas angiotensin I and angiotensin1-7 concentrations were unchanged. The study demonstrates a selective effect of angiotensin II in maintaining placental vessel tension, which may play an important role in development of hypertension in preeclampsia.
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