Against the prevailing background of an unusual capital flow reversal which is posing immense challenges to the integration of the region's banking sector, this study measures macro-prudential instruments affecting t...Against the prevailing background of an unusual capital flow reversal which is posing immense challenges to the integration of the region's banking sector, this study measures macro-prudential instruments affecting the implementation of an integrated financial service industry. This study is important at times when domestic and country-based financial policies are directed at competing goals. The interaction of macro-prudential policies with other policies, in particular monetary policies and micro-prudential policies is crucial to address systemic risk involved. There is growing recognition that prudential policies tools interact and coordinate with one another. To utilize multiple instruments seems to provide a greater assurance of effectiveness by tackling risk from various angles. As such, this study also assesses the interactions of the policies. The study also proposes a baseline model to capture systemic risk due to liquidity risk and risk because of currency devaluation.展开更多
The bone marrow microenvironment is critical for the maintenance and functionality of stem/progenitor cells,which are essential for bone development and regeneration.However,the composition and potential use of bone m...The bone marrow microenvironment is critical for the maintenance and functionality of stem/progenitor cells,which are essential for bone development and regeneration.However,the composition and potential use of bone marrow interstitial fluid have not been well explored.In this study,we report the role of neonatal bovine bone marrow interstitial fluid(NBIF)in enhancing the bone regeneration capacity of human bone marrow mesenchymal stem cells(hBMSCs).Unlike adult bovine bone marrow interstitial fluid(ABIF),NBIF-fed hBMSCs exhibit enhanced self-renewal and osteogenic potential and bone marrow homing ability,along with transcriptome changes as compared to hBMSCs cultured in standard fetal bovine serum(FBS)supplemented medium.Mass spectrometry analysis reveals that multiple secreted factors associated with tissue repair and bone development are enriched in NBIF compared to FBS and ABIF.The combined use of NBIF-enriched Nerve Growth Factor(NGF),Lactoferrin(LTF),and High Mobility Group Protein B1(HMGB1),together with Insulin-Like Growth Factor 1(IGF1)for culturing hBMSCs in the presence of FBS can enhance osteogenic potential and bone marrow homing ability,mimicking NBIF's effects.These findings highlight the role of interstitial fluid in the bone marrow microenvironment and its potential to optimize stem cell-based therapies.展开更多
文摘Against the prevailing background of an unusual capital flow reversal which is posing immense challenges to the integration of the region's banking sector, this study measures macro-prudential instruments affecting the implementation of an integrated financial service industry. This study is important at times when domestic and country-based financial policies are directed at competing goals. The interaction of macro-prudential policies with other policies, in particular monetary policies and micro-prudential policies is crucial to address systemic risk involved. There is growing recognition that prudential policies tools interact and coordinate with one another. To utilize multiple instruments seems to provide a greater assurance of effectiveness by tackling risk from various angles. As such, this study also assesses the interactions of the policies. The study also proposes a baseline model to capture systemic risk due to liquidity risk and risk because of currency devaluation.
基金financially supported by the Guangzhou National Laboratory(grant#GZNL2025C02022,A.M.#QNPG2317,J.Z.)partially by the National Natural Science Foundation of China(31988101)。
文摘The bone marrow microenvironment is critical for the maintenance and functionality of stem/progenitor cells,which are essential for bone development and regeneration.However,the composition and potential use of bone marrow interstitial fluid have not been well explored.In this study,we report the role of neonatal bovine bone marrow interstitial fluid(NBIF)in enhancing the bone regeneration capacity of human bone marrow mesenchymal stem cells(hBMSCs).Unlike adult bovine bone marrow interstitial fluid(ABIF),NBIF-fed hBMSCs exhibit enhanced self-renewal and osteogenic potential and bone marrow homing ability,along with transcriptome changes as compared to hBMSCs cultured in standard fetal bovine serum(FBS)supplemented medium.Mass spectrometry analysis reveals that multiple secreted factors associated with tissue repair and bone development are enriched in NBIF compared to FBS and ABIF.The combined use of NBIF-enriched Nerve Growth Factor(NGF),Lactoferrin(LTF),and High Mobility Group Protein B1(HMGB1),together with Insulin-Like Growth Factor 1(IGF1)for culturing hBMSCs in the presence of FBS can enhance osteogenic potential and bone marrow homing ability,mimicking NBIF's effects.These findings highlight the role of interstitial fluid in the bone marrow microenvironment and its potential to optimize stem cell-based therapies.
