ObjectiveTo investigate the role of Krüppel-like factor 4 (KLF4) mediated monocyte/macrophage subtype switch in the pathological progression of pulmonary fibrosis.MethodsThirty-six patients with interstitial pneumonia were recruited from Characteristic Medical Center of the Chinese People's Armed Police Force between May 2015 and January 2017. Peripheral venous blood and bronchoalveolar lavage fluid were collected in the morning. Pulmonary function and arterial blood gas were tested after admission. Flow cytometry was used to test monocyte subtypes of peripheral blood and macrophage subtypes of bronchoalveolar lavage fluid. KLF4 of peripheral blood was detected by enzyme linked immunosorbent assay. Thirty normal subjects were selected as control group of peripheral blood mononuclear cell subtypes and KLF4 (control group A), and 10 patients without pulmonary fibrosis who needed bronchoscopy were selected as control group of macrophage subtypes in alveolar lavage fluid (control group B). The relationship between the expression of KLF4 and the differentiation of monocytes and macrophages were observed. Furthermore, the relationship between the differentiation of monocytes subtypes, macrophages subtypes and lung function were observed.ResultsMonocyte of CD14++CD16– subtype in pulmonary fibrosis group was significantly lower than that in control group A (P<0.05). Monocyte of CD14++CD16+ subtype in pulmonary fibrosis group was significantly higher than that in control group A (P<0.05). No significant difference was found between the two groups regarding CD14+CD16++. No correlation was found between three subtypes of monocyte and DLCO of patients and between three subtypes of monocyte and PaO2 of patients. M1 macrophage in pulmonary fibrosis group was significantly lower than that in control group B (P<0.05). M2 macrophage in pulmonary fibrosis group was significantly higher than that in control group B (P<0.05). Negative correlation was found between the ratio of M2 subtypes and DLCO of patients and between the ratio of M2 subtypes and PaO2 of patients (P<0.05). KLF4 protein of blood in pulmonary fibrosis group was significantly higher than that in control group A (P<0.05). Positive correlation was found between the ratio of M2 subtypes and KLF4 protein (P<0.05).ConclusionsCD16+ monocyte plays a role in the occurrence and development of pulmonary fibrosis, but no evidence is found there is a direct correlation between monocyte subtypes of peripheral blood and fibrosis degree of lung tissue. M2 macrophage subtype plays an important role in the development of interstitial pneumonia. The number of M2 macrophages is positively correlated with the severity of pulmonary fibrosis. Monocyte/macrophage subtype differentiation by KLF4 may play a role in the pathological progression of pulmonary fibrosis.
Objective To explore the role of activated macrophage in the repair of traumatic optic nerve injury in an animal model of incomplete traumatic optic nerve injury with lens damage.Methods One hundred and twelve healthy New Zealand big ear white rabbits were divided into two groups (experimental and control groups) randomly. According to the different time points (one, four, seven, ten, 14, 21 and 28 days), each group was further divided into seven subgroups, each subgroup had eight rabbits. Traumatic optic neuropathy and lens damage were induced in one eye of each rabbit by fluid percussion brain injury device (FPI); those eyes were the experimental group. The eyes of control group only had traumatic optic neuropathy. The functional and morphological changes of retina and optic nerve were evaluated by histopathology and flashvisual evoked potential (FVEP).Results FVEP P100 latency was (42.74plusmn; 5.83) ms, P100 amplitude was (7.98 plusmn; 2.15) mu;V before optic nerve injury was induced. One day after the injury, the P100latency increased and the P100amplitude reduced significantly. The P100 latency reached the longest at ten days after injury, and then recovered gradually. The P100 amplitude reached the lowest at seven days after injury, and then recovered gradually. The histopathological examination showed activated macrophages were not detected in the retina and optic nerve at day one after the injury, then they increased gradually and reached their peak (91.25plusmn;6.91) at day ten, and decreased after that, the difference was statistically significant (F=21.277, P=0.000); retinal ganglion cell axon regeneration began at day seven after the injury with an average of (6.38plusmn;1.85). The axons increased gradually and reached their peak (49.63plusmn;2.50) at day 28, and the changes were significant (F=7.711, P=0.000). Conclusions Incomplete optic nerve injury can recover gradually if there is lens damage at the same time. Activated macrophage may play an important role in this recovery process.
Aortic dissection is one of the most devastating cardiovascular diseases. One of the most important pathological features of aortic dissection is local inflammatory response, including the infiltration of inflammatory cells, extracellular matrix degradation, and smooth muscle cell phenotype switch. Macrophages which are the core of the inflammatory response play an extremely pivotal role in the progression of inflammation and tissue remodeling. Macrophages can be artificially divided into M1 and M2 types, of which the M1-type promotes inflammation while the M2-type is associated with the regression of inflammation and tissue healing. Mastering the switch of phenotypic transformation of macrophages may be of great help in inhibiting the inflammation of aortic tissue and facilitating tissue healing, as well as the treatment of aortic dissection. In this paper, we focus on the polarization of macrophages and discuss the role of macrophages in aortic dissection, the polarization pathway and the effect of related polarizing agents on the treatment of aortic dissection.
Objective
To study the effect of water soluble chitosan (WSC) on the apoptosis of peritoneal macrophage induced by lipopolysaccharides (LPS), and discuss the mechanism.
Methods
Peritoneal macrophages were divided to three groups: phosphate buffered saline (PBS) group, LPS group and LPS plus WSC group. At hour 24, apoptosis cell and active caspase-3 were detected by flow cytometry; nitric oxide (NO) was determined with Griess reagent.
Results
There were more apoptosis cells in the LPS group than the PBS group. The percentage of apoptosis cells was significantly decreased in the LPS plus WSC group than the LPS group. The expression of active caspase-3 and the secretion of NO were also inhibited by WSC after LPS intervention.
Conclusion
WSC inhibits apoptosis of peritoneal macrophage induced by LPS.
Objectives To explore the expression of macrophage inflammatory protein-1beta (MIP-1β) in patients with none-small cell lung cancer (NSCLC) of different pathological types and its association with cancer clinical stages and metastasis of lymph nodes.Methods MIP-1β mRNA from fresh lung tissue of 38 NSCLC patients was amplified by RT-PCR and half-quantified.Immunohistochemical technique was performed to find out the expression of MIP-1β in paraffin-embedded lung tissue from 66 patients with NSCLC.The area and degree of stain were evaluated to determine the positive rate,which was compared between with or without metastasis of lymph nodes,different pathological types and TNM clinical stages.Results MIP-1β protein was found in cytoplasm of malignant cells of squama cell cancer and adenocarcinoma without significant difference between them,while not found in bronchus-alveolus cell cancer.The MIP-1β mRNA expression in squama cell cancer and adenocarcinoma were significant higher than which in bronchus-alveolus cell cancer without significant difference between each other.The positive rates of MIP-1β in lung cancer of Ⅰ,Ⅱ and Ⅲ stages were 74.2%,29.4% and 85.7% respectively,which of Ⅰ and Ⅲ stages cancer were significant higher than Ⅱ stage without significant difference between each other.The positive rates of MIP-1β in lung cancer with or without metastasis of lymph nodes were 45.8% and 76.3% respectively with significant difference between them.Conclusion MIP-1β is expressed in lung cancer cells and relates to the pathological type,TNM stage and the metastasis of lymph nodes.
ObjectiveTo investigate the expressions of microRNA-155 (miR-155) in different phenotypes of activated macrophages.
MethodsThe THP-1 cells underwent polarized activation into M1, M2 or tumor-associated macrophages (TAMs), and the phenotypes were confirmed by flow cytometry. The miR-155 expression was determined by qRt-PCR in M1 macrophages, M2 macrophages and TAMs.
ResultsThe miR-155 expression significantly decreased in the M2 macrophages (1.83±0.337, P=0.000), TAMs (1.60±0.233, P=0.000) compared with the M1 (6.580±0.637). The phenotype of TAMs was similar to M2. There was no statistically significant difference between TAMs and M2 macrophages in the expression of miR-155 (P=0.546).
ConclusionDifferent expressions of miR-155 in macrophages M1-type and M2-type may be associated with the differentiation or their cellular functions. The phenotypic characteristics TAMs may transform to macrophages to M2-type. And they may have the same functions.
Scavenger receptor CD36 is a transmembrane protein as well as pattern recognition receptor expressed on the surfaces of multiple types of cells such as monocytes, macrophages, microvascular endothelial cells, smooth muscle cells, and platelets. In recent years, studies have found that the expression of CD36 is increased in some diseases, including type 2 diabetes, atherosclerosis, non-alcoholic fatty liver, and obesity. This paper collates the latest progress in the studies of scavenger receptor CD36, illuminates the role of CD36 receptor in metabolic inflammatory diseases by inflammation control, endoplasmic reticulum stress, macrophage phenotype transformation, and insulin resistance, and briefly introduces that CD36 can be a serum marker of metabolic inflammatory diseases, in order to provide potential therapeutic targets for treatment of metabolic inflammatory diseases.
Objective To observe the effects of mechanical stretch on cytokines release from alveolar macrophages( AMs) and the expression of macrophage inflammatory protein-2( MIP-2) induced by lipopolysaccharide( LPS) . Methods AMs were divided into the following groups: ①AMs were subjected to 20% elongation by Flexercell 4000T cell stress system for 24 hours and the supernatant was collected to detect the levels of TNF-α, IL-1β, IL-2, IL-4, IL-6, IL-10, IL-12, IFN-γ, macrophage inflammatory protein-1α( MIP-1α) , MIP-2, monocyte chemoattractant protein-1( MCP-1) , granulocyte /macrophage colony stimulating factors( GM-CSF) , interferon inducible protein-10( IP-10) , regulated on activation in normal T-cell expressed and secreted( Rantes) and keratinocyte chemoattractant( KC) , by using LiquiChip system. ② AMs were subjected to 5% , 10% , 15% and 20% elongation for 24 hours and the supernatant was collected to detect the levels of MIP-2. ③AMs were subjected to 20% elongation and MIP-2 in supernatant was detected 1, 3,6, 12, and 24 hours later. ④ AMs were subjected to 20% elongation and/ or LPS at a concentration of 10 ng/mL, and MIP-2 in supernatant was detected 24 hours later. Unstretched AMs were used as control in all kind of test. Results ①The levels of IL-1β, IL-6,MIP-2, MCP-1, IFN-γand IP-10 secreted by stretched AMs were 8. 7, 4. 3, 38. 6, 4. 8, 14. 2 and 5. 0 times those of the control group( all P lt; 0. 001) . ② The levels of MIP-2 secreted by AMs subjected to 10% , 15% and 20% elongation were ( 480. 5 ±93. 1) pg /mL,( 806. 3 ±225. 9) pg/mL and ( 1335. 7 ±18. 5) pg/mL respectively, all significantly higher than those oft he control group [ ( 34. 6 ±11. 4) pg/mL, all P lt;0. 001] . ③ Three hours after the stimulation of stretch the level of MIP-2 began to increase gradually. And 6, 12, and 24 hours after the stimulation the levels of MIP-2 secreted by the AMs were ( 819. 4 ±147. 5) pg/mL, ( 1287. 6 ±380 ±3 ) pg/mL and ( 1455. 9 ±436. 7) pg/mLrespectively, all significantly higher than those of the control group[ ( 33. 4 ±10. 2) pg/mL, all P lt; 0. 001] . ④When the AMs were stimulated individually by LPS( 10 ng /mL) or mechanical stretch ( 20% ) , the levels of MIP-2 increased to ( 1026. 3 ±339. 5 ) pg/mL and ( 1335. 7 ±318. 5 ) pg/mL respectively( both P lt; 0. 001) . When the AMs were costimulated by LPS and mechanical stretch, the level of MIP-2 increased to ( 2275. 3 ±492. 1) pg/mL, implicating a synergistic effect between mechanical stretch and LPS ( F = 121. 983, P lt; 0. 001) . Conclusions Mechanical stretch activates AMs to produce multiple inflammatory cytokines and induce AMs to secret MIP-2 in a strength- and time-dependent manner.Mechanical stretch also has synergistic effect with LPS in inducing MIP-2 release, which might play an important role in the development of ventilator-induced lung injury.
Objective To investigate the effect of peritoneal exudative cells as feeder cells on growth state of primary culture of adult rat retinal Muuml;ller cells. Methods Peritoneal exudative cells were gained from adult rats, which were identified with specifically biological marker of macrophage (CD68). The phagocytosis was evaluated by the ink particles experiment. Retinal Muuml;ller cells of adult rats were cultured by enzyme digestion method, and identified by GFAP and vimentin immunocytochemically. As the feeder cells, peritoneal exudative cells were cocultured with Muuml;ller cells. The proliferation cycle of Muuml;ller cells was assayed by flow cytometry. One-step TUNEL staining was employed to detect the apoptotic Muuml;ller cells. Results Over ninety-five percent of rat peritoneal exudative cells were macrophage, which have a favourable phagocytic ability for the ink particles. The primary cultured Muuml;ller cells adhered to the wall of flask and grew fast, with large applanate cell bodies. The third-generation cells grew slowly. After cocultured with feeder cells, the Muuml;ller cells showed more rapid growth rate with more cells in S and G2/M phase(S phase, t=4.172, Plt;0.001; G2/M phase, t=3.562, Plt;0.01) and less apoptotic rate (t=3.804, Plt;0.01). The growing cycle was cut down from 25-30 days to 1822 days for the firstgeneration cells, from 10-15 days to 7-10 days for the second-generation cells. Conclusion It is an effective method to use the peritoneal exudative cells as feeder cells cocultured with primary culture of retinal Muuml;ller cells, which can shorten the culture period of Muuml;ller cells in adult rats.
Postmenopausal osteoporosis (PMOP) is a significant metabolic bone disease triggered by estrogen deficiency. Macrophages, as pivotal cells in bone metabolism regulation, participate in bone remodeling and inflammatory modulation through differentiation into osteoclasts and polarization phenotype switching. This article systematically reviews the mechanistic roles of macrophages in PMOP, encompassing their interactions with osteoclasts, polarization effects, immune-inflammatory responses, and impacts of oxidative stress. Furthermore, it explores the potential applications of macrophages in molecular diagnosis and pharmacological interventions for PMOP, while proposing future research directions.
