The changes of proteins in the rice (Oryzasativa L.) Tesanai 2 seedling under salt (NaCl,4 g/L), heat shock (42℃, 3h ), and cold(14℃, 3d ) pretreatments were compared toexplore the mechanism of the cross adaptationt...The changes of proteins in the rice (Oryzasativa L.) Tesanai 2 seedling under salt (NaCl,4 g/L), heat shock (42℃, 3h ), and cold(14℃, 3d ) pretreatments were compared toexplore the mechanism of the cross adaptationto different environmental stresses. The chill-ing resistance of rice seedling after 1℃, 150pmol·msPFD(photo flux density) for 2d was enhanced distinctly by salt, heat shock,展开更多
Trichloroethylene (TCE) is a major pollutant that affects both occupational and general environments. The liver is an important target organ of TCEE. Substantial efforts and remarkable progress into understanding TC...Trichloroethylene (TCE) is a major pollutant that affects both occupational and general environments. The liver is an important target organ of TCEE. Substantial efforts and remarkable progress into understanding TCE cytotoxicity have been made in cultured liver cells. However, the molecular mechanisms by which TCE induces hepatotoxicity are not well understood. SET (also known as protein phosphatase 2A inhibitor, 12PP2A, or template-activating factor-I, TAF-D is a nuclear protein that regulates histone modification, gene transcription, DNA replication, nucleosome assembly,展开更多
The aging process in mammals is correlated with changes in psychomotor performance, cognitive function, and ability to adapt to stress (Montgomery et al., 1982; Lorens et al., 1990). These changes may be related to al...The aging process in mammals is correlated with changes in psychomotor performance, cognitive function, and ability to adapt to stress (Montgomery et al., 1982; Lorens et al., 1990). These changes may be related to alterations in neuronal tissue that occur during the aging process. The normal aging process may be conceived of as the neuronal cell’s increasing inability to maintain normal cellular function which ultimately results in a number of morphological and biochemical changes. Morphologically, there is a loss of neuronal cells with increasing age (Brizzee and展开更多
Fish (Rita rita) were exposed to an anionic detergent, dodecylbenzene sodium sulfonate, at a concentration of 6.9mg/liter (96-hr LC_(50) of the detergent).A series of histochemical techniques, used in this study for t...Fish (Rita rita) were exposed to an anionic detergent, dodecylbenzene sodium sulfonate, at a concentration of 6.9mg/liter (96-hr LC_(50) of the detergent).A series of histochemical techniques, used in this study for the demonstration of various protein constituents, indicated a gradual decrease in the intensity of staining reactions of the cytoplasmic material, suggesting a loss of protein moieties from the club cells and the epithelial cells of the opercular epidermis as a result of detergent exposure. 1990 Academic Press.Inc.展开更多
BACKGROUND: Inflammatory reaction and the increased level of its accompanying active protein play an important role in the occurrence and development of cerebral infarction. C-reactive protein, fibrinogen and white b...BACKGROUND: Inflammatory reaction and the increased level of its accompanying active protein play an important role in the occurrence and development of cerebral infarction. C-reactive protein, fibrinogen and white blood cell, as the monitoring index of inflammatory reaction, are very important in the occurrence and development of acute cerebral infarction. OBJECTIVE: To make a comparison between patients with primary hypertension accompanied with acute cerebral infarction and with simple primary hypertension by observing the changes in plasma C-reactive protein and fibrinogen levels as well as white blood cell and differential counts and analyzing their significances. DESIGN : Controlled observation SETTING : Ward Building for VIP, Shenzhen Hospital, Peking University. PARTICIPANTS: Totally 133 patients with primary hypertension were selected from Ward Building for VIP, Shenzhen Hospital, Peking University during September 2003 to September 2005, The diagnostic criteria were based on the hypertension diagnosis criteria formulated by the 7^th World Health Organization-International Society of Hypertension Guidelines (WHO-ISH) in 1998. The informed consents were obtained from all the participants. The involved patients were assigned into two groups: primary hypertension group, in which, there were 65 patients with primary hypertension ( degree 2), including 42 males and 23 females, with mean age of (61 ±14)years and mean blood pressure of (162.7±6.8)/(94.2±8.4) mm Hg (1 mm Hg =0.133 kPa), and primary hypertension combined with cerebral infarction group, in which, there were 68 patients with primary hypertension combined with cerebral infarction ( meeting the diagnostic criteria formulated in the 4^th National Cerebrovascular Diseases Meeting in 1995 and diagnosed by skull CT or MRI to exclude the patients with lacunar infarction), including 42 males and 26 females, with mean age of (56±15) years and mean blood pressure of (176.4±9.2)/(96.3±9.7) mm Hg. METHODS: Plasm C-reactive protein and fibrinogen levels, and white blood cell and differential counts of patients in the two groups were examined 24 hours after stroke. The above indexes were re-examined in the primary hypertension combined with cerebral infarction group 72 hours after stroke. White blood cell and differential counts were performed with laser method (East Asia FE-95001 RAM-1, Japan). The level of C-reactive protein was measured with turbidimetry (BNII Automatic Systems For Analysis, USA). The level of fibrinogen was measured with algorithm method when prothrombin time was normal and with Clauss method when prothrombin time was abnormal (ACL Automatic Coagulation Analyzer, USA). MAIN OUTCOME MEASURES: The plasm C-reactive protein and flbrinogen levels, and white blood cell and differential counts 24 hours after stroke in two groups and 72 hours after stroke in primary hypertension combined with cerebral infarction group. RESULTS: All the 133 involved patients participated in the result analysis. The plasm C-reactive protein and fibrinogen levels, and white blood cell and neutrophil counts in patients with primary hypertension were all within the normal range. The plasm C-reactive protein and fibrinogen levels, and white blood cell and neu- trophil counts in patients with primary hypertension combined with cerebral infarction were significantly higher than those in patients with primary hypertension 24 hours after stroke and 72 hours after stroke respectively[24 hours after stroke:(32.12±11.76) mg/L vs. (5.02±3.21 ) mg/L;(4.64±0.75) g/L vs. (3.12±0.49) g/L; (9.32±81)×10^9 L^- 1 vs. (5.78±1.32)×10^9L^- 1 (7.85±2.38)×10^9 L^- 1 vs.(3.49±1.28)×10^9 L^-1,t =7.094, 5.759,4.106,5.491, respectively,all P〈 0.01; 72 hours after stroke: (47.62±18.43) mg/L vs. (32.12±11.76) mg/L; (5.08±0.82) g/L vs. (4.64±0.75) g/L, t =2.864,2.220, respectively, both P 〈 0.05]. CONCLUSION: The increase in fibrinogen level and white blood cell count are the important index in monitoring primary hypertension combined with acute cerebral infarction. The increase in plasm C-reactive protein and fibrinogen levels 72 hours after stroke indicates that plasma C-reactive protein and fibrinogen are very important in the development of disease.展开更多
BACKGROUND: Interaction between astrocyte and neuron may two-dimensionally influence on ischemic injury; however, glial fibriliary acidic protein (GFAP) and cytosolic phospholipase A2 (cPLA2) are both important m...BACKGROUND: Interaction between astrocyte and neuron may two-dimensionally influence on ischemic injury; however, glial fibriliary acidic protein (GFAP) and cytosolic phospholipase A2 (cPLA2) are both important markers to reflect changes of astrocyte and neuron after cerebral ischemia, respectively. OBJECTIVE: To observe the changes of GFAP and positive cPLA2 cells in hippocampal area of model rats with focal cerebral ischemia in various phases of cerebral ischemia/reperfusion. DESIGN : Randomized contrast observation SETTING: Department of Basic Medical Science of Human Anatomy and Histology & Embryology, Medical College of Wuhan Polytechnic University; Faculty Medical College of Wuhan University. MATERIALS: The experiment was carried out in the Department of Basic Medical Science, Medical College of Wuhan Industry College from May to June 2004. A total of 28 healthy SD rats of either gender and weighing 200-250 g were provided by Animal Department of Medical College of Jianghan University. METHODS: All 28 rats were randomly divided into 7 groups, including sham operation group, 2-, 6-, 12-, 24- and 48-reperfusion groups, and triphenyltetrazolium chloride (TTC) group, with 4 in each group. Two hours after ischemia, ischemia/reperfusion models were established in left middle cerebral artery (MCA); common carotid artery was ligated and line cork was inserted into it with the depth of (1.8±0.5) cm. Rats in sham operation group were inserted with the depth of 1.0 cm, and other operations were as the same as those in 2-hour ischemia/reperfusion groups. Models in TTC group were established as the same as those in 2-hour ischemia/24-hour reperfusion group, and they were used to evaluate the therapeutic effect. Changes of GFAP and cPLA2 in hippocampal area in various phases were detected with immunohisto- chemical method. MAIN OUTCOME MEASURES : Changes of GFAP and positive cPLA2 cells in hippocampal area of rats with focal cerebral ischemia in various phases of ischemia/reperfusion. RESULTS: All 28 rats were involved in the final analysis without any loss. (1) Animal models successfully showed the effect of focal cerebral ischemia. (2) Changes of GFAP and cPLA2 in hippocampal area in various phases: Two hours after ischemia/reperfusion, changes of GFAP and cPLA2 were increased gradually, reached at peak at 24 hours, and decreased gradually. CONCLUSION : Courses of GFAP and cPLA2 are changed at the onset of focal cerebral ischemia, and this suggests that both of them participate in injury or protection of brain tissue of focal cerebral ischemia.展开更多
W25 is a low-temperature-sensitive albino mu-tant line. Temperature not only controls thealbino phenotype expression of W25, but alsodetermines whether it could survive. When thetemperature is lower than 25℃, the lea...W25 is a low-temperature-sensitive albino mu-tant line. Temperature not only controls thealbino phenotype expression of W25, but alsodetermines whether it could survive. When thetemperature is lower than 25℃, the leaves ofW25 shows complete albino, but they exhibitsnormal green when temperature is higher than30℃. Meanwhile, at 25℃, it can be greenable展开更多
Dynamic regulation of cell-extracellular matrix(ECM)-material interactions is crucial for various biomedical applications.In this study,a light-activated molecular switch for the modulation of cell attachment/detachme...Dynamic regulation of cell-extracellular matrix(ECM)-material interactions is crucial for various biomedical applications.In this study,a light-activated molecular switch for the modulation of cell attachment/detachment behaviors was established on monolayer graphene(Gr)/n-type Silicon substrates(Gr/Si).Initiated by light illumination at the Gr/Si interface,pre-adsorbed proteins(bovine serum albumin,ECM proteins collagen-1,and fibronectin)underwent protonation to achieve negative charge transfer to Gr films(n-doping)throughπ-πinteractions.This n-doping process stimulated the conformational switches of ECM proteins.The structural alterations in these ECM interactors significantly reduced the specificity of the cell surface receptor-ligand interaction(e.g.,integrin recognition),leading to dynamic regulation of cell adhesion and eventual cell detachment.RNA-sequencing results revealed that the detached bone marrow mesenchymal stromal cell sheets from the Gr/Si system manifested regulated immunoregulatory properties and enhanced osteogenic differentiation,implying their potential application in bone tissue regeneration.This work not only provides a fast and feasible method for controllable cells/cell sheets harvesting but also gives new insights into the understanding of cell-ECM-material communications.展开更多
Finely tuning mechanosensitive membrane proteins holds great potential in precisely controlling inflammatory responses.In addition to macroscopic force,mechanosensitive membrane proteins are reported to be sensitive t...Finely tuning mechanosensitive membrane proteins holds great potential in precisely controlling inflammatory responses.In addition to macroscopic force,mechanosensitive membrane proteins are reported to be sensitive to micro-nano forces.Integrinβ_(2),for example,might undergo a piconewton scale stretching force in the activation state.High-aspect-ratio nanotopographic structures were found to generate nN-scale biomechanical force.Together with the advantages of uniform and precisely tunable structural parameters,it is fascinating to develop low-aspect-ratio nanotopographic structures to generate micro-nano forces for finely modulating their conformations and the subsequent mechanoimmiune responses.In this study,low-aspect-ratio nanotopographic structures were developed to finely manipulate the conformation of integrinβ_(2).The direct interaction of forces and the model molecule integrinαXβ_(2)was first performed.It was demonstrated that pressing force could successfully induce conformational compression and deactivation of integrinαXβ_(2),and approximately 270 to 720 pN may be required to inhibit its conformational extension and activation.Three low-aspect-ratio nanotopographic surfaces(nanohemispheres,nanorods,and nanoholes)with various structural parameters were specially designed to generate the micro-nano forces.It was found that the nanorods and nanohemispheres surfaces induce greater contact pressure at the contact interface between macrophages and nanotopographic structures,particularly after cell adhesion.These higher contact pressures successfully inhibited the conformational extension and activation of integrinβ_(2),suppressing focal adhesion activity and the downstream PI3K-Akt signaling pathway,reducing NF-κB signaling and macrophage inflammatory responses.Our findings suggest that nanotopographic structures can be used to finely tune mechanosensitive membrane protein conformation changes,providing an effective strategy for precisely modulating inflammatory responses.展开更多
文摘The changes of proteins in the rice (Oryzasativa L.) Tesanai 2 seedling under salt (NaCl,4 g/L), heat shock (42℃, 3h ), and cold(14℃, 3d ) pretreatments were compared toexplore the mechanism of the cross adaptationto different environmental stresses. The chill-ing resistance of rice seedling after 1℃, 150pmol·msPFD(photo flux density) for 2d was enhanced distinctly by salt, heat shock,
基金supported by NSFC (the National Natural Science Foundation of China) [81273126, 30972454]the Key Project of Guangdong Natural Science Foundation [S2012020010903]+2 种基金the Project of Shenzhen Basic Research Plan [JCYJ20120616 154222545]the Upgrade Scheme of Shenzhen Municipal Key Laboratory [CXB201005260068A]Medical Scientific Research Foundation of Guangdong Province (A2012577)
文摘Trichloroethylene (TCE) is a major pollutant that affects both occupational and general environments. The liver is an important target organ of TCEE. Substantial efforts and remarkable progress into understanding TCE cytotoxicity have been made in cultured liver cells. However, the molecular mechanisms by which TCE induces hepatotoxicity are not well understood. SET (also known as protein phosphatase 2A inhibitor, 12PP2A, or template-activating factor-I, TAF-D is a nuclear protein that regulates histone modification, gene transcription, DNA replication, nucleosome assembly,
文摘The aging process in mammals is correlated with changes in psychomotor performance, cognitive function, and ability to adapt to stress (Montgomery et al., 1982; Lorens et al., 1990). These changes may be related to alterations in neuronal tissue that occur during the aging process. The normal aging process may be conceived of as the neuronal cell’s increasing inability to maintain normal cellular function which ultimately results in a number of morphological and biochemical changes. Morphologically, there is a loss of neuronal cells with increasing age (Brizzee and
文摘Fish (Rita rita) were exposed to an anionic detergent, dodecylbenzene sodium sulfonate, at a concentration of 6.9mg/liter (96-hr LC_(50) of the detergent).A series of histochemical techniques, used in this study for the demonstration of various protein constituents, indicated a gradual decrease in the intensity of staining reactions of the cytoplasmic material, suggesting a loss of protein moieties from the club cells and the epithelial cells of the opercular epidermis as a result of detergent exposure. 1990 Academic Press.Inc.
文摘BACKGROUND: Inflammatory reaction and the increased level of its accompanying active protein play an important role in the occurrence and development of cerebral infarction. C-reactive protein, fibrinogen and white blood cell, as the monitoring index of inflammatory reaction, are very important in the occurrence and development of acute cerebral infarction. OBJECTIVE: To make a comparison between patients with primary hypertension accompanied with acute cerebral infarction and with simple primary hypertension by observing the changes in plasma C-reactive protein and fibrinogen levels as well as white blood cell and differential counts and analyzing their significances. DESIGN : Controlled observation SETTING : Ward Building for VIP, Shenzhen Hospital, Peking University. PARTICIPANTS: Totally 133 patients with primary hypertension were selected from Ward Building for VIP, Shenzhen Hospital, Peking University during September 2003 to September 2005, The diagnostic criteria were based on the hypertension diagnosis criteria formulated by the 7^th World Health Organization-International Society of Hypertension Guidelines (WHO-ISH) in 1998. The informed consents were obtained from all the participants. The involved patients were assigned into two groups: primary hypertension group, in which, there were 65 patients with primary hypertension ( degree 2), including 42 males and 23 females, with mean age of (61 ±14)years and mean blood pressure of (162.7±6.8)/(94.2±8.4) mm Hg (1 mm Hg =0.133 kPa), and primary hypertension combined with cerebral infarction group, in which, there were 68 patients with primary hypertension combined with cerebral infarction ( meeting the diagnostic criteria formulated in the 4^th National Cerebrovascular Diseases Meeting in 1995 and diagnosed by skull CT or MRI to exclude the patients with lacunar infarction), including 42 males and 26 females, with mean age of (56±15) years and mean blood pressure of (176.4±9.2)/(96.3±9.7) mm Hg. METHODS: Plasm C-reactive protein and fibrinogen levels, and white blood cell and differential counts of patients in the two groups were examined 24 hours after stroke. The above indexes were re-examined in the primary hypertension combined with cerebral infarction group 72 hours after stroke. White blood cell and differential counts were performed with laser method (East Asia FE-95001 RAM-1, Japan). The level of C-reactive protein was measured with turbidimetry (BNII Automatic Systems For Analysis, USA). The level of fibrinogen was measured with algorithm method when prothrombin time was normal and with Clauss method when prothrombin time was abnormal (ACL Automatic Coagulation Analyzer, USA). MAIN OUTCOME MEASURES: The plasm C-reactive protein and flbrinogen levels, and white blood cell and differential counts 24 hours after stroke in two groups and 72 hours after stroke in primary hypertension combined with cerebral infarction group. RESULTS: All the 133 involved patients participated in the result analysis. The plasm C-reactive protein and fibrinogen levels, and white blood cell and neutrophil counts in patients with primary hypertension were all within the normal range. The plasm C-reactive protein and fibrinogen levels, and white blood cell and neu- trophil counts in patients with primary hypertension combined with cerebral infarction were significantly higher than those in patients with primary hypertension 24 hours after stroke and 72 hours after stroke respectively[24 hours after stroke:(32.12±11.76) mg/L vs. (5.02±3.21 ) mg/L;(4.64±0.75) g/L vs. (3.12±0.49) g/L; (9.32±81)×10^9 L^- 1 vs. (5.78±1.32)×10^9L^- 1 (7.85±2.38)×10^9 L^- 1 vs.(3.49±1.28)×10^9 L^-1,t =7.094, 5.759,4.106,5.491, respectively,all P〈 0.01; 72 hours after stroke: (47.62±18.43) mg/L vs. (32.12±11.76) mg/L; (5.08±0.82) g/L vs. (4.64±0.75) g/L, t =2.864,2.220, respectively, both P 〈 0.05]. CONCLUSION: The increase in fibrinogen level and white blood cell count are the important index in monitoring primary hypertension combined with acute cerebral infarction. The increase in plasm C-reactive protein and fibrinogen levels 72 hours after stroke indicates that plasma C-reactive protein and fibrinogen are very important in the development of disease.
文摘BACKGROUND: Interaction between astrocyte and neuron may two-dimensionally influence on ischemic injury; however, glial fibriliary acidic protein (GFAP) and cytosolic phospholipase A2 (cPLA2) are both important markers to reflect changes of astrocyte and neuron after cerebral ischemia, respectively. OBJECTIVE: To observe the changes of GFAP and positive cPLA2 cells in hippocampal area of model rats with focal cerebral ischemia in various phases of cerebral ischemia/reperfusion. DESIGN : Randomized contrast observation SETTING: Department of Basic Medical Science of Human Anatomy and Histology & Embryology, Medical College of Wuhan Polytechnic University; Faculty Medical College of Wuhan University. MATERIALS: The experiment was carried out in the Department of Basic Medical Science, Medical College of Wuhan Industry College from May to June 2004. A total of 28 healthy SD rats of either gender and weighing 200-250 g were provided by Animal Department of Medical College of Jianghan University. METHODS: All 28 rats were randomly divided into 7 groups, including sham operation group, 2-, 6-, 12-, 24- and 48-reperfusion groups, and triphenyltetrazolium chloride (TTC) group, with 4 in each group. Two hours after ischemia, ischemia/reperfusion models were established in left middle cerebral artery (MCA); common carotid artery was ligated and line cork was inserted into it with the depth of (1.8±0.5) cm. Rats in sham operation group were inserted with the depth of 1.0 cm, and other operations were as the same as those in 2-hour ischemia/reperfusion groups. Models in TTC group were established as the same as those in 2-hour ischemia/24-hour reperfusion group, and they were used to evaluate the therapeutic effect. Changes of GFAP and cPLA2 in hippocampal area in various phases were detected with immunohisto- chemical method. MAIN OUTCOME MEASURES : Changes of GFAP and positive cPLA2 cells in hippocampal area of rats with focal cerebral ischemia in various phases of ischemia/reperfusion. RESULTS: All 28 rats were involved in the final analysis without any loss. (1) Animal models successfully showed the effect of focal cerebral ischemia. (2) Changes of GFAP and cPLA2 in hippocampal area in various phases: Two hours after ischemia/reperfusion, changes of GFAP and cPLA2 were increased gradually, reached at peak at 24 hours, and decreased gradually. CONCLUSION : Courses of GFAP and cPLA2 are changed at the onset of focal cerebral ischemia, and this suggests that both of them participate in injury or protection of brain tissue of focal cerebral ischemia.
文摘W25 is a low-temperature-sensitive albino mu-tant line. Temperature not only controls thealbino phenotype expression of W25, but alsodetermines whether it could survive. When thetemperature is lower than 25℃, the leaves ofW25 shows complete albino, but they exhibitsnormal green when temperature is higher than30℃. Meanwhile, at 25℃, it can be greenable
基金The National Key R&D Program of China(2021YFC2400400),the National Science Foundation of China(52072339,21673206 and 82002271)financially supported this work。
文摘Dynamic regulation of cell-extracellular matrix(ECM)-material interactions is crucial for various biomedical applications.In this study,a light-activated molecular switch for the modulation of cell attachment/detachment behaviors was established on monolayer graphene(Gr)/n-type Silicon substrates(Gr/Si).Initiated by light illumination at the Gr/Si interface,pre-adsorbed proteins(bovine serum albumin,ECM proteins collagen-1,and fibronectin)underwent protonation to achieve negative charge transfer to Gr films(n-doping)throughπ-πinteractions.This n-doping process stimulated the conformational switches of ECM proteins.The structural alterations in these ECM interactors significantly reduced the specificity of the cell surface receptor-ligand interaction(e.g.,integrin recognition),leading to dynamic regulation of cell adhesion and eventual cell detachment.RNA-sequencing results revealed that the detached bone marrow mesenchymal stromal cell sheets from the Gr/Si system manifested regulated immunoregulatory properties and enhanced osteogenic differentiation,implying their potential application in bone tissue regeneration.This work not only provides a fast and feasible method for controllable cells/cell sheets harvesting but also gives new insights into the understanding of cell-ECM-material communications.
基金This work was financially supported by the National Natural Science Foundation of China(No.82061167)the National Key Research and Development Program of China(No.2022YFA1104400)+3 种基金the International Team for Implantology(ITI)Research Grant(No.1536_2020)Fundamental Research Funds of Sun Yat-sen University(No.22ykqb06)Science and Technology Program of Guangzhou(No.SL2022B03J00507)Guangdong Financial Fund for High-Caliber Hospital Construction,and National Undergraduate Training Program for Innovation and Entrepreneurship(No.202210772).
文摘Finely tuning mechanosensitive membrane proteins holds great potential in precisely controlling inflammatory responses.In addition to macroscopic force,mechanosensitive membrane proteins are reported to be sensitive to micro-nano forces.Integrinβ_(2),for example,might undergo a piconewton scale stretching force in the activation state.High-aspect-ratio nanotopographic structures were found to generate nN-scale biomechanical force.Together with the advantages of uniform and precisely tunable structural parameters,it is fascinating to develop low-aspect-ratio nanotopographic structures to generate micro-nano forces for finely modulating their conformations and the subsequent mechanoimmiune responses.In this study,low-aspect-ratio nanotopographic structures were developed to finely manipulate the conformation of integrinβ_(2).The direct interaction of forces and the model molecule integrinαXβ_(2)was first performed.It was demonstrated that pressing force could successfully induce conformational compression and deactivation of integrinαXβ_(2),and approximately 270 to 720 pN may be required to inhibit its conformational extension and activation.Three low-aspect-ratio nanotopographic surfaces(nanohemispheres,nanorods,and nanoholes)with various structural parameters were specially designed to generate the micro-nano forces.It was found that the nanorods and nanohemispheres surfaces induce greater contact pressure at the contact interface between macrophages and nanotopographic structures,particularly after cell adhesion.These higher contact pressures successfully inhibited the conformational extension and activation of integrinβ_(2),suppressing focal adhesion activity and the downstream PI3K-Akt signaling pathway,reducing NF-κB signaling and macrophage inflammatory responses.Our findings suggest that nanotopographic structures can be used to finely tune mechanosensitive membrane protein conformation changes,providing an effective strategy for precisely modulating inflammatory responses.
