Haifeng Ye scite author profile

Bacterial biofilms can be programmed to produce living materials with self-healing and evolvable functionalities. However, the wider use of artificial biofilms has been hindered by limitations on processability and functional protein secretion capacity. We describe a highly flexible and tunable living functional materials platform based on the TasA amyloid machinery of the bacterium Bacillus subtilis. We demonstrate that genetically programmable TasA fusion proteins harboring diverse functional proteins or domains can be secreted and can assemble into diverse extracellular nano-architectures with tunable physicochemical properties. Our engineered biofilms have the viscoelastic behaviors of hydrogels and can be precisely fabricated into microstructures having a diversity of three-dimensional (3D) shapes using 3D printing and microencapsulation techniques. Notably, these long-lasting and environmentally responsive fabricated living materials remain alive, self-regenerative, and functional. This new tunable platform offers previously unattainable properties for a variety of living functional materials having potential applications in biomaterials, biotechnology, and biomedicine.

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Patch repair of deep wounds by mobilized fascia

Correa-Gallegos

Jiang

Christ

et al. 2019

Nature

136

154

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Poly(γ,l-glutamic acid)–cisplatin conjugate effectively inhibits human breast tumor xenografted in nude mice

Jin

et al. 2006

Biomaterials

114

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Inflamm-Aging: A New Mechanism Affecting Premature Ovarian Insufficiency

Huang

et al. 2019

Journal of Immunology Research

116

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The normal function of ovaries, along with the secretion of sex hormones, is among the most important endocrine factors that maintain the female sexual characteristics and promote follicular development and ovulation. Premature ovarian insufficiency (POI) is a common cause in the etiology of female infertility. It is defined as the loss of ovarian function before the age of 40. The characteristics of POI are menstrual disorders, including amenorrhea and delayed menstruation, accompanied by a raised gonadotrophin level and decreased estradiol level. Inflammatory aging is a new concept in the research field of aging. It refers to a chronic and low-degree proinflammatory state which occurs with increasing age. Inflammatory aging is closely associated with multiple diseases, as excessive inflammation can induce the inflammatory lesions in certain organs of the body. In recent years, studies have shown that inflammatory aging plays a significant role in the pathogenesis of POI. This paper begins with the pathogenesis of inflammatory aging and summarizes the relationship between inflammatory aging and premature ovarian insufficiency in a comprehensive way, as well as discussing the new diagnostic and therapeutic methods of POI.

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A hexagonal close-packed high-entropy alloy: The effect of entropy

et al. 2016

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Injury triggers fascia fibroblast collective cell migration to drive scar formation through N-cadherin

et al. 2020

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Scars are more severe when the subcutaneous fascia beneath the dermis is injured upon surgical or traumatic wounding. Here, we present a detailed analysis of fascia cell mobilisation by using deep tissue intravital live imaging of acute surgical wounds, fibroblast lineage-specific transgenic mice, and skin-fascia explants (scar-like tissue in a dish – SCAD). We observe that injury triggers a swarming-like collective cell migration of fascia fibroblasts that progressively contracts the skin and form scars. Swarming is exclusive to fascia fibroblasts, and requires the upregulation of N-cadherin. Both swarming and N-cadherin expression are absent from fibroblasts in the upper skin layers and the oral mucosa, tissues that repair wounds with minimal scar. Impeding N-cadherin binding inhibits swarming and skin contraction, and leads to reduced scarring in SCADs and in animals. Fibroblast swarming and N-cadherin thus provide therapeutic avenues to curtail fascia mobilisation and pathological fibrotic responses across a range of medical settings.

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Synthetic therapeutic gene circuits in mammalian cells

Fussenegger

2014

FEBS Letters

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a b s t r a c tIn the emerging field of synthetic biology, scientists are focusing on designing and creating functional devices, systems, and organisms with novel functions by engineering and assembling standardised biological building blocks. The progress of synthetic biology has significantly advanced the design of functional gene networks that can reprogram metabolic activities in mammalian cells and provide new therapeutic opportunities for future gene-and cell-based therapies. In this review, we describe the most recent advances in synthetic mammalian gene networks designed for biomedical applications, including how these synthetic therapeutic gene circuits can be assembled to control signalling networks and applied to treat metabolic disorders, cancer, and immune diseases. We conclude by discussing the various challenges and future prospects of using synthetic mammalian gene networks for disease therapy.

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Synthetic mammalian gene circuits for biomedical applications

Aubel

Fussenegger

2013

Current Opinion in Chemical Biology

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Haifeng Ye

Programmable and printable Bacillus subtilis biofilms as engineered living materials

Patch repair of deep wounds by mobilized fascia

Poly(γ,l-glutamic acid)–cisplatin conjugate effectively inhibits human breast tumor xenografted in nude mice

Inflamm-Aging: A New Mechanism Affecting Premature Ovarian Insufficiency

A hexagonal close-packed high-entropy alloy: The effect of entropy

Injury triggers fascia fibroblast collective cell migration to drive scar formation through N-cadherin

Synthetic therapeutic gene circuits in mammalian cells

Synthetic mammalian gene circuits for biomedical applications

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