Peritoneal M2 macrophage transplantation as a potential cell therapy for enhancing renal repair in acute kidney injury

Mao, Runyi; Wang, Chengshi; Zhang, Fuping; Zhao, Meng; Liu, Shuyun; Liao, Guangneng; Li, Lan; Chen, Younan; Cheng, Jun; Liu, Jingping; Liu, Yanrong

doi:10.1111/jcmm.15005

Cited by 42 publications

(46 citation statements)

References 48 publications

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“…These studies highlight the complexity and importance of these cells in response to infection and inflammation (55,57), but also reveal their role in immune homeostasis (1,2,58,59). Peritoneal macrophages follow similar activation pathways to other macrophage lineages, where M1 macrophages activated by IFNg and TNFa have enhanced microbicidal or tumoricidal capacity and secrete high levels of pro-inflammatory cytokines and mediators (60), while IL-4 activated M2 macrophages reduce inflammation and contribute to tissue repair through secretion of IL-10 and TGF-b (61,62). Although M2 macrophages have antiinflammatory roles, dysregulation of these signaling pathways also induce inflammation and immunopathology (38), which we investigated using the in vivo model of IL-4c induced peritonitis.…”

Section: Discussionmentioning

confidence: 99%

Macrophage-Regulatory T Cell Interactions Promote Type 2 Immune Homeostasis Through Resistin-Like Molecule α

Kim

Lainez

et al. 2021

Front. Immunol.

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RELMα is a small, secreted protein expressed by type 2 cytokine-activated “M2” macrophages in helminth infection and allergy. At steady state and in response to type 2 cytokines, RELMα is highly expressed by peritoneal macrophages, however, its function in the serosal cavity is unclear. In this study, we generated RELMα TdTomato (Td) reporter/knockout (RαTd) mice and investigated RELMα function in IL-4 complex (IL-4c)-induced peritoneal inflammation. We first validated the RELMαTd/Td transgenic mice and showed that IL-4c injection led to the significant expansion of large peritoneal macrophages that expressed Td but not RELMα protein, while RELMα+/+ mice expressed RELMα and not Td. Functionally, RELMαTd/Td mice had increased IL-4 induced peritoneal macrophage responses and splenomegaly compared to RELMα+/+ mice. Gene expression analysis indicated that RELMαTd/Td peritoneal macrophages were more proliferative and activated than RELMα+/+ macrophages, with increased genes associated with T cell responses, growth factor and cytokine signaling, but decreased genes associated with differentiation and maintenance of myeloid cells. We tested the hypothesis that RαTd/Td macrophages drive aberrant T cell activation using peritoneal macrophage and T cell co-culture. There were no differences in CD4+ T cell effector responses when co-cultured with RELMα+/+ or RELMαTd/Td macrophages, however, RELMαTd/Td macrophages were impaired in their ability to sustain proliferation of FoxP3+ regulatory T cells (Treg). Supportive of the in vitro results, immunofluorescent staining of the spleens revealed significantly decreased FoxP3+ cells in the RELMαTd/Td spleens compared to RELMα+/+ spleens. Taken together, these studies identify a new RELMα regulatory pathway whereby RELMα-expressing macrophages directly sustain Treg proliferation to limit type 2 inflammatory responses.

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Section: Discussionmentioning

confidence: 99%

Macrophage-Regulatory T Cell Interactions Promote Type 2 Immune Homeostasis Through Resistin-Like Molecule α

Kim

Lainez

et al. 2021

Front. Immunol.

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“…Macrophages are highly plastic cells, which can respond to subtle changes in the tissue microenvironment by initiating several activation programs. The activation of macrophages occurs according to two main types of program: the classic inflammatory activation (M1), of which the activating stimuli are bacterial molecules (e.g., LPS) and inflammatory cytokines, and the alternative activation (or M 2 ) , s t i m u l i a c t i v a t o r s o f w h i c h a r e t h e a n t iinflammatory cytokines (e.g., IL-4), immune complexes or glucocorticoids [32,63]. The initial inflammatory response activates the M1 polarization of macrophages, which become able to eliminate the invading new microorganisms, and promote the inflammatory response, while during the inflammation resolution phase, in which the increase of IL-4 plays a determining role, the macrophages are repolarized in the M2 direction, losing their reactivity to inflammatory stimuli, and assuming the ability to eliminate damaged cells and tissues, and to promote angiogenesis and tissue repair [64].…”

Section: Discussionmentioning

confidence: 99%

Human Amnion-Derived Mesenchymal Stromal Cells in Cirrhotic Patients with Refractory Ascites: A Possible Anti-Inflammatory Therapy for Preventing Spontaneous Bacterial Peritonitis

Pampalone

Corrao

Amico

et al. 2021

Stem Cell Rev and Rep

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Cirrhosis is associated with dysregulated immune cell activation and immune dysfunction. These conditions modify gut flora, facilitate bacterial translocation, and increase susceptibility to bacterial peritonitis and consequent systemic infections by dramatically affecting long-term patient survival. Human amnion-derived mesenchymal stromal cells (hA-MSCs) exert immunomodulatory potential benefit, and have the ability to modulate their actions, especially in situations requiring immune activation through mechanisms not fully understood. In this study, we aimed to investigate, in vitro, the immunostimulant or immunosuppressive effects of hA-MSCs on cellular components of ascitic fluid obtained from cirrhotic patients with refractory ascites. We found that hA-MSCs viability is not affected by ascitic fluid and, interestingly, hA-MSCs diminished the pro-inflammatory cytokine production, and promoted anti-inflammatory M2 macrophage polarization. Moreover, we found that there was no simultaneous significant decrease in the M1-like component, allowing a continual phagocytosis activity of macrophages and NK cells to restore a physiological condition. These data highlight the plasticity of hA-MSCs’ immunomodulatory capacity, and pave the way to further understanding their role in conditions such as spontaneous bacterial peritonitis. Graphical abstract

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“…At present, it is considered that M2 macrophages and regulatory T cells are critical cells controlling inflammation, as well as tissue remodeling and repair following AKI (30). Previous studies have shown that M2 macrophage therapy can effectively reduce renal injury in AKI mice (31,32). The increase in M2 macrophages may play a pivotal role in the initial damage of human AKI and in the transition from AKI to chronic kidney disease (CKD) (33).…”

Section: Major Signaling Pathways and Key Mediators Of Macrophages In Acute Kidney Injury (Review)mentioning

confidence: 99%

Major signaling pathways and key mediators of macrophages in acute kidney injury (Review)

Chen

Wang³

et al. 2021

Mol Med Rep

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Acute kidney injury (AKI) has become a global public health problem with high morbidity and mortality rates, as well as high healthcare costs. Immune cells, particularly macrophages, which regulate tissue development, destroy pathogens, control homeostasis and repair wounds, play crucial and complex roles in AKI. In various types of AKI, numerous rapidly recruited monocytes and tissue-resident macrophages act in a coordinated manner. Thus, elucidating the phenotypic and functional characteristics of macrophages in AKI is essential for identifying potential therapeutic targets. Macrophage-sensing mediators and macrophage-derived mediators participate in the major macrophage-related signaling pathways in AKI, which regulate macrophage polarization and determine disease progression. In conclusion, macrophages change their roles and regulatory mechanisms during the occurrence and development of AKI. The aim of the present review was to contribute to an improved understanding of AKI and to the identification of novel therapeutic targets for this condition.

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Peritoneal M2 macrophage transplantation as a potential cell therapy for enhancing renal repair in acute kidney injury

Cited by 42 publications

References 48 publications

Macrophage-Regulatory T Cell Interactions Promote Type 2 Immune Homeostasis Through Resistin-Like Molecule α

Macrophage-Regulatory T Cell Interactions Promote Type 2 Immune Homeostasis Through Resistin-Like Molecule α

Human Amnion-Derived Mesenchymal Stromal Cells in Cirrhotic Patients with Refractory Ascites: A Possible Anti-Inflammatory Therapy for Preventing Spontaneous Bacterial Peritonitis

Major signaling pathways and key mediators of macrophages in acute kidney injury (Review)

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