Sheng Mao scite author profile

Sheng Mao

3Publications

2Citation Statements Received

144Citation Statements Given

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140

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Peking University

Publications

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Extracellular Matrix Rigidities Regulate the Tricarboxylic Acid Cycle and Antibiotic Resistance of Three‐Dimensionally Confined Bacterial Microcolonies

Han

Jiang

et al. 2023

Advanced Science

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As a major cause of clinical chronic infection, microbial biofilms/microcolonies in host tissues essentially live in 3D‐constrained microenvironments, which potentially modulate their spatial self‐organization and morphodynamics. However, it still remains unclear whether and how mechanical cues of 3D confined microenvironments, for example, extracellular matrix (ECM) stiffness, exert an impact on antibiotic resistance of bacterial biofilms/microcolonies. With a high‐throughput antibiotic sensitivity testing (AST) platform, it is revealed that 3D ECM rigidities greatly modulate their resistance to diverse antibiotics. The microcolonies in 3D ECM with human tissue‐specific rigidities varying from 0.5 to 20 kPa show a ≈2–10 000‐fold increase in minimum inhibitory concentration, depending on the types of antibiotics. The authors subsequently identified that the increase in 3D ECM rigidities leads to the downregulation of the tricarboxylic acid (TCA) cycle, which is responsible for enhanced antibiotic resistance. Further, it is shown that fumarate, as a potentiator of TCA cycle activity, can alleviate the elevated antibiotic resistance and thus remarkably improve the efficacy of antibiotics against bacterial microcolonies in 3D confined ECM, as confirmed in the chronic infection mice model. These findings suggest fumarate can be employed as an antibiotic adjuvant to effectively treat infections induced by bacterial biofilms/microcolonies in a 3D‐confined environment.

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Bilayer Actuator with Overload Protection on the Basis of Semicrystalline Polyurethane

Zhang

Mao

Zheng

et al. 2023

Macromol. Rapid Commun.

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Response to external stimuli plays a significant role in the environmental adaptation of living matters and intelligent devices. Most stimulus–response systems in nature can respond to appropriate stimuli, and inhibit the response under excessive stimuli, such as excessive heat or water, which can be called overload protection. However, even though various responsive materials have been developed for different stimuli, most of them are not protective against the overload stimuli. In this work, a bilayer actuator based on semicrystalline polyurethane is designed, which can respond differently to proper stimuli and excessive stimuli, i.e., water. This actuator can bend gradually under the proper stimulation of water, but will straighten and even bend reversely with excessive stimulation. The mechanism behind the reversible and adjustable actuator with overload protection is investigated both experimentally and theoretically, and the competition between dynamic factors and thermodynamic stability in the swelling process is considered the main cause.

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Learning the Nonlinear Dynamics of Mechanical Metamaterials with Graph Networks

Xue¹,

Adriaenssens

Mao

2022

Preprint

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Sheng Mao

Extracellular Matrix Rigidities Regulate the Tricarboxylic Acid Cycle and Antibiotic Resistance of Three‐Dimensionally Confined Bacterial Microcolonies

Bilayer Actuator with Overload Protection on the Basis of Semicrystalline Polyurethane

Learning the Nonlinear Dynamics of Mechanical Metamaterials with Graph Networks

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