Aidong Wang scite author profile

Human milk is uniquely optimized for the needs of the developing infant. Its composition is complex and dynamic, driven primarily by maternal genetics, and to a lesser extent by diet and environment. One important component that is gaining attention is the milk fat globule (MFG). The MFG is composed of a triglyceride-rich core surrounded by a tri-layer membrane, also known as the milk fat globule membrane (MFGM) that originates from mammary gland epithelia. The MFGM is enriched with glycerophospholipids, sphingolipids, cholesterol, and proteins, some of which are glycosylated, and are known to exert numerous biological roles. Mounting evidence suggests that the structure of the MFG and bioactive components of the MFGM may benefit the infant by aiding in the structural and functional maturation of the gut through the provision of essential nutrients and/or regulating various cellular events during infant growth and immune education. Further, antimicrobial peptides and surface carbohydrate moieties surrounding the MFG might have a pivotal role in shaping gut microbial populations, which in turn may promote protection against immune and inflammatory diseases early in life. This review seeks to: (1) understand the components of the MFG, as well as maternal factors including genetic and lifestyle factors that influence its characteristics; (2) examine the potential role of this milk component on the intestinal immune system; and (3) delineate the mechanistic roles of the MFG in infant intestinal maturation and establishment of the microbiota in the alimentary canal.

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An ATP-binding cassette subfamily G full transporter is essential for the retention of leaf water in both wild barley and rice

Chen

Komatsuda

Feng

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

135

108

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Land plants have developed a cuticle preventing uncontrolled water loss. Here we report that an ATP-binding cassette (ABC) subfamily G (ABCG) full transporter is required for leaf water conservation in both wild barley and rice. A spontaneous mutation, eibi1.b , in wild barley has a low capacity to retain leaf water, a phenotype associated with reduced cutin deposition and a thin cuticle. Map-based cloning revealed that Eibi1 encodes an HvABCG31 full transporter. The gene was highly expressed in the elongation zone of a growing leaf (the site of cutin synthesis), and its gene product also was localized in developing, but not in mature tissue. A de novo wild barley mutant named “ eibi1.c ,” along with two transposon insertion lines of rice mutated in the ortholog of HvABCG31 also were unable to restrict water loss from detached leaves. HvABCG31 is hypothesized to function as a transporter involved in cutin formation. Homologs of HvABCG31 were found in green algae, moss, and lycopods, indicating that this full transporter is highly conserved in the evolution of land plants.

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Membrane‐Penetrating Carbon Quantum Dots for Imaging Nucleic Acid Structures in Live Organisms

et al. 2019

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The dynamics of DNAa nd RNAs tructures in live cells are important for understanding cell behaviors,s uch as transcription activity,p rotein expression, cell apoptosis,a nd hereditary disease,b ut are challenging to monitor in live organisms in real time.The difficulty is largely due to the lack of photostable imaging probes that can distinguish between DNAand RNA, and more importantly,are capable of crossing multiple membrane barriers ranging from the cell/organelle to the tissue/organ level. We report the discovery of ac ationic carbon quantum dot (cQD) probe that emits spectrally distinguishable fluorescence upon binding with doublestranded DNAa nd single-stranded RNAi nl ive cells,t hereby enabling real-time monitoring of DNAand RNAl ocalization and motion. Asurprising finding is that the probe can penetrate through various types of biological barriers in vitro and in vivo.Combined with standardand super-resolution microscopy, photostable cQDs allowtime-lapse imaging of chromatin and nucleoli during cell division and Caenorhabditis elegans (C.elegans) growth.

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Glioma stem cells are more aggressive in recurrent tumors with malignant progression than in the primary tumor, and both can be maintained long-term in vitro

Huang¹,

Zhang

Dong³

et al. 2008

BMC Cancer

101

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BackgroundDespite the advances made during decades of research, the mechanisms by which glioma is initiated and established remain elusive. The discovery of glioma stem cells (GSCs) may help to elucidate the processes of gliomagenesis with respect to their phenotype, differentiation and tumorigenic capacity during initiation and progression. Research on GSCs is still in its infancy, so no definitive conclusions about their role can yet be drawn. To understand the biology of GSCs fully, it is highly desirable to establish permanent and biologically stable GSC lines.MethodsIn the current study, GSCs were isolated from surgical specimens of primary and recurrent glioma in a patient whose malignancy had progressed during the previous six months. The GSCs were cryopreserved and resuscitated periodically during long-term maintenance to establish glioma stem/progenitor cell (GSPC) lines, which were characterized by immunofluorescence, flow cytometry and transmission electronic microscopy. The primary and recurrent GSPC lines were also compared in terms of in vivo tumorigenicity and invasiveness. Molecular genetic differences between the two lines were identified by array-based comparative genomic hybridization and further validated by real-time PCR.ResultsTwo GSPC lines, SU-1 (primary) and SU-2 (recurrent), were maintained in vitro for more than 44 months and 38 months respectively. Generally, the potentials for proliferation, self-renewal and multi-differentiation remained relatively stable even after a prolonged series of alternating episodes of cryopreservation and resuscitation. Intracranial transplantation of SU-1 cells produced relatively less invasive tumor mass in athymic nude mice, while SU-2 cells led to much more diffuse and aggressive lesions strikingly recapitulated their original tumors. Neither SU-1 nor SU-2 cells reached the terminal differentiation stage under conditions that would induce terminal differentiation in neural stem cells. The differentiation of most of the tumor cells seemed to be blocked at the progenitor cell phase: most of them expressed nestin but only a few co-expressed differentiation markers. Transmission electron microscopy showed that GSCs were at a primitive stage of differentiation with low autophagic activity. Array-based comparative genomic hybridization revealed genetic alterations common to both SU-1 and SU-2, including amplification of the oncogene EGFR and deletion of the tumor suppressor PTEN, while some genetic alterations such as amplification of MTA1 (metastasis associated gene 1) only occurred in SU-2.ConclusionThe GSPC lines SU-1 and SU-2 faithfully retained the characteristics of their original tumors and provide a reliable resource for investigating the mechanisms of formation and recurrence of human gliomas with progressive malignancy. Such investigations may eventually have major impacts on the understanding and treatment of gliomas.

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Autophagy impairment inhibits differentiation of glioma stem/progenitor cells

et al. 2010

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A NIR-I light-responsive superoxide radical generator with cancer cell membrane targeting ability for enhanced imaging-guided photodynamic therapy

Zhu

et al. 2020

Chem. Sci.

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Enhanced Recovery after Surgery Programs for Liver Resection: a Meta-analysis

Wang

Zheng

Zhang

et al. 2017

Journal of Gastrointestinal Surgery

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Nucleic acid-selective light-up fluorescent biosensors for ratiometric two-photon imaging of the viscosity of live cells and tissues

Tian

Wang

et al. 2016

Chem. Sci.

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Aidong Wang

Compositional Dynamics of the Milk Fat Globule and Its Role in Infant Development

An ATP-binding cassette subfamily G full transporter is essential for the retention of leaf water in both wild barley and rice

Membrane‐Penetrating Carbon Quantum Dots for Imaging Nucleic Acid Structures in Live Organisms

Glioma stem cells are more aggressive in recurrent tumors with malignant progression than in the primary tumor, and both can be maintained long-term in vitro

Autophagy impairment inhibits differentiation of glioma stem/progenitor cells

A NIR-I light-responsive superoxide radical generator with cancer cell membrane targeting ability for enhanced imaging-guided photodynamic therapy

Enhanced Recovery after Surgery Programs for Liver Resection: a Meta-analysis

Nucleic acid-selective light-up fluorescent biosensors for ratiometric two-photon imaging of the viscosity of live cells and tissues

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