Reactive oxygen species regulation by NCF1 governs ferroptosis susceptibility of Kupffer cells to MASH.

Impaired self-renewal of Kupffer cells (KCs) leads to inflammation in metabolic dysfunction-associated steatohepatitis (MASH). Here, we identify neutrophil cytosolic factor 1 (NCF1) as a critical regulator of iron homeostasis in KCs. NCF1 is upregulated in liver macrophages and dendritic cells in humans with metabolic dysfunction-associated steatotic liver disease and in MASH mice. Macrophage NCF1, but not dendritic cell NCF1, triggers KC iron overload, ferroptosis, and monocyte-derived macrophage infiltration, thus aggravating MASH progression. Mechanistically, elevated oxidized phospholipids induced by macrophage NCF1 promote Toll-like receptor (TLR4)-dependent hepatocyte hepcidin production, leading to increased KC iron deposition and subsequent KC ferroptosis. Importantly, the human low-functional polymorphic variant NCF190H alleviates KC ferroptosis and MASH in mice. In conclusion, macrophage NCF1 impairs iron homeostasis in KCs by oxidizing phospholipids, triggering hepatocyte hepcidin release and KC ferroptosis in MASH, highlighting NCF1 as a therapeutic target for improving KC fate and limiting MASH progression.

Systemic Mutation of Ncf1 Ameliorates Obstruction-Induced Renal Fibrosis While Macrophage-Rescued NCF1 Further Alleviates Renal Fibrosis.

Aims: NCF1, a subunit of the NADPH oxidase 2 (NOX2), first described the expression in neutrophils and macrophages and participated in the pathogenesis from various systems. However, there are controversial findings on the role of NCF1 in different kinds of kidney diseases. In this study, we aim to pinpoint the specific role of NCF1 in the progression of renal fibrosis induced by obstruction. Results: In this study, NCF1 expression was upregulated in kidney biopsies of chronic kidney disease patients. The expression level of all subunits of the NOX2 complex was also significantly increased in the unilateral ureteral obstruction (UUO) kidney. Then, we used wild-type mice and Ncf1 mutant mice (Ncf1m1j mice) to perform UUO-induced renal fibrosis. Results demonstrated that Ncf1m1j mice exhibited mild renal fibrosis but increased macrophages count and CD11b+Ly6Chi macrophage proportion. Next, we compared the renal fibrosis degree between Ncf1m1j mice and Ncf1 macrophage-rescued mice (Ncf1m1j.Ncf1Tg-CD68 mice). We found that rescuing NCF1 expression in macrophages further alleviated renal fibrosis and decreased macrophage infiltration in the UUO kidney. In addition, flow cytometry data showed fewer CD11b+Ly6Chi macrophages in the kidney of the Ncf1m1j.Ncf1Tg-CD68 group than the Ncf1m1j group. Innovation: We first used the Ncf1m1j mice and Ncf1m1j.Ncf1Tg-CD68 mice to detect the role of NCF1 in the pathological process of renal fibrosis induced by obstruction. Also, we found that NCF1 expressed in different cell types exerts opposing effects on obstructive nephropathy. Conclusion: Taken together, our findings support that systemic mutation of Ncf1 ameliorates renal fibrosis induced by obstruction, and rescuing NCF1 in macrophages further alleviates renal fibrosis.

[Cross-scale spatiotemporal characteristics of landscape ecological conditions index in coastal zone of Jiangsu Province, China during 1990-2020.] / 1990­2020年江苏省海岸带景观生态状况指数跨尺度时空特征.

Coastal zone ecosystems in Jiangsu have produced different degrees of spatial response and degradation characteristics under complex external disturbances, especially significant spatiotemporal evolution of landscape pattern in recent decades. It is urgent to carry out comprehensive assessment on landscape ecology covering landscape composition, configuration, and function at multiple scales. We analyzed the spatial and temporal variations of landscape ecological condition index (LECI) in large-scale coastal zone of Jiangsu Province from 1990 to 2020, assessed landscape ecological conditions of 14 county-level districts, and selected evaluation units with side lengths of 100, 200,…, 1000 m to understand the spatial scale effects of LECI. The results showed that the indicators of landscape composition, configuration and function could sensitively reflect the changes of LECI, which could comprehensively evaluate landscape ecological condition of Jiangsu coastal zone during the study period, with 300 m evaluation unit being the best spatial scale. The LECI value in the study area fluctuated. Landscape ecological condition was the best in 1990 and the worst in 2020. Landscape composition and configuration had a greater impacts on the changes of landscape ecological condition. The fluctuation of LECI in different counties and cities was closely related to intense human activities. Human activities, such as industrial development and urban expansion, had damaged landscape ecological status. The establishment of nature reserves had restored landscape ecological status to a certain extent. LECI could effectively indicate the changes of landscape ecological status of large-scale coastal zone, and provide multi-perspective suggestions for space utilization and protection.