Yingzhe Liu scite author profile

Metabolic reprogramming greatly contributes to the regulation of macrophage activation. However, the mechanism of lipid accumulation and the corresponding function in tumor-associated macrophages (TAMs) remain unclear. With primary investigation in colon cancer and confirmation in other cancer models, here we determine that deficiency of monoacylglycerol lipase (MGLL) results in lipid overload in TAMs. Functionally, macrophage MGLL inhibits CB2 cannabinoid receptor-dependent tumor progression in inoculated and genetic cancer models. Mechanistically, MGLL deficiency promotes CB2/TLR4-dependent macrophage activation, which further suppresses the function of tumor-associated CD8+ T cells. Treatment with CB2 antagonists delays tumor progression in inoculated and genetic cancer models. Finally, we verify that expression of macrophage MGLL is decreased in cancer tissues and positively correlated with the survival of cancer patients. Taken together, our findings identify MGLL as a switch for CB2/TLR4-dependent macrophage activation and provide potential targets for cancer therapy.

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Solubilizing Carbon Nanotubes through Noncovalent Functionalization. Insight from the Reversible Wrapping of Alginic Acid around a Single-Walled Carbon Nanotube

Liu

Chipot

Shao

et al. 2010

J. Phys. Chem. B

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Carbon nanotubes coated with alginic acid (AA) through noncovalent functionalization have been shown to be soluble and dispersed in water. In the present contribution, all-atom molecular dynamics simulations have been performed to probe the self-assembly mechanism that underlies the formation of complexes by AA and a single-walled carbon nanotube (SWCNT), both in the gas phase and in an aqueous solution. Results of these simulations reveal that AA can wrap around SWCNT by virtue of van der Waals attractions and organize into a compact helical structure, a process induced in the gas phase by hydrogen-bonding interactions. In contrast, in an alginate aqueous solution, a loose helical wrapping mode is found to be favored by virtue of electrostatic repulsions in conjunction with the weakening of hydrogen-bonding interactions. Documented experimentally (Liu, Y.; et al. Small 2006, 2, 874-878) and coined "Great Wall of China" motif, the typical arrangement of AA residues around the tubular structure, conducive to dissolve nanotubes, is observed in the present simulations. Investigation of metal cations binding to AA suggests that calcium ions can mediate aggregation of AA chains by interacting strongly with the carboxylate groups, thereby leading to reverse unwrapping. The results reported in this work shed meaningful light on the potential of noncovalent functionalization for solubilizing carbon nanotubes, and open exciting perspectives for the design of new wrapping agents that are envisioned to form the basis of innovative nanomaterials targeted at chemical and biomedical applications.

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TRP channel functions in the gastrointestinal tract

Liu

et al. 2015

Semin Immunopathol

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Transient receptor potential (TRP) channels are predominantly distributed in both somatic and visceral sensory nervous systems and play a crucial role in sensory transduction. As the largest visceral organ system, the gastrointestinal (GI) tract frequently accommodates external inputs, which stimulate sensory nerves to initiate and coordinate sensory and motor functions in order to digest and absorb nutrients. Meanwhile, the sensory nerves in the GI tract are also able to detect potential tissue damage by responding to noxious irritants. This nocifensive function is mediated through specific ion channels and receptors expressed in a subpopulation of spinal and vagal afferent nerve called nociceptor. In the last 18 years, our understanding of TRP channel expression and function in GI sensory nervous system has been continuously improved. In this review, we focus on the expressions and functions of TRPV1, TRPA1, and TRPM8 in primary extrinsic afferent nerves innervated in the esophagus, stomach, intestine, and colon and briefly discuss their potential roles in relevant GI disorders.

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Free-Energy Landscape of the Helical Wrapping of a Carbon Nanotube by a Polysaccharide

et al. 2011

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Carbon nanotubes wrapped by polysaccharide chains like chitosan (CHTS) or its derivatives through noncovalent decoration have been shown to condense effectively and deliver DNA for gene therapy. Despite the importance of these novel nanoscale materials, the detail of the microscopic structure and underlying interaction mechanism is still fragmentary. In the present work, the complex formed by CHTS and a single-walled carbon nanotube (SWNT) has been investigated by means of atomistic molecular dynamics (MD) simulations to explore its propensity toward self-assembly, together with its structural properties in an aqueous environment. The present results reveal that CHTS can wrap spontaneously the tubular surface by regulating backbone torsional stress upon van der Waals attraction by the SWNT, resulting in a steady, right-handed helical conformation. The free-energy landscape characterizing the wrapping process of the CHTS chain from a straight conformation to a tight helical one brings to light two energetically favored helical conformations corresponding to distinct pitches. In addition, the degree of deacetylation of the polysaccharide chain, but not the pH, induces pronounced fluctuations in the geometrical properties of the helix.

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Yingzhe Liu

Monoacylglycerol lipase regulates cannabinoid receptor 2-dependent macrophage activation and cancer progression

Solubilizing Carbon Nanotubes through Noncovalent Functionalization. Insight from the Reversible Wrapping of Alginic Acid around a Single-Walled Carbon Nanotube

TRP channel functions in the gastrointestinal tract

Free-Energy Landscape of the Helical Wrapping of a Carbon Nanotube by a Polysaccharide

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