Abstract 073: Expression of Axl in Innate Immune Cells Contributes to Kidney Dysfunction and Onset of Hypertension

Hypertension ◽  
2015 ◽  
Vol 66 (suppl_1) ◽  
Author(s):  
Vyacheslav A Korshunov ◽  
Kyung A Ko ◽  
Deanne Mickelsen ◽  
Ronald W Wood ◽  
Sri N Batchu

Introduction: We previously reported that expression of the receptor tyrosine kinase Axl in hematopoietic cells is critical for kidney dysfunction in early hypertension. Here we investigated the role of Axl expression in innate immune cells in deoxycorticosterone acetate (DOCA)-salt induced hypertension. Methods and Results: RAG1-/- mice lack adaptive immune cells and displayed the same (~25 mmHg) increase in systolic blood pressure (BP) as C57BL/6J mice after 1 week of DOCA-salt. While in metabolic cages RAG1-/- drank more (14.3±0.9 mL) than C57BL/6J mice (10.6±2.5 mL) per day after 1 week of DOCA-salt. Ultrasound imaging confirmed that RAG1-/- had ~20 % larger kidneys vs. C57BL/6J mice after DOCA-salt. RAG1-/- kidneys accumulated 2 times more fluid (2.8±0.1 %) compared to C57BL/6J mice (1.4±0.5 %) after DOCA-salt. Flow cytometry on kidneys from RAG1-/- confirmed absence of T and B lymphocytes, while DOCA-salt increased presence of macrophages (1.1±0.3 x10 9 ) compared to C57BL/6J mice (0.6±0.1 x10 9 ). We successfully generated Axl/RAG1 double knockout mice and subjected the littermates to 1 week of DOCA-salt. Increases in systolic BP were the same in Axl/RAG1+/+ and Axl/RAG1-/- littermate mice. No differences were found in kidney volumes between the Axl/RAG1 genotypes as well. However, 24 hrs excretion volumes increased in Axl/RAG1-/- (50±6 %) compared to Axl/RAG1+/+ (31±6 %) littermates. Finally, renal artery blood flow velocity (611±52 mm/s) and resistive index (0.62±0.03) were reduced in Axl/RAG1+/+ but not in Axl/RAG1-/- mice (665±45 mm/s and 0.68±0.01, respectively) when compared to their controls. Conclusions: Our findings suggest that mice lacking lymphocytes compensate by increasing kidney macrophages that contribute to initial increase in BP. Depletion of Axl in innate immune cells partially reverses kidney dysfunction by improving renal artery function in early hypertension.

2013 ◽  
Vol 109 (03) ◽  
pp. 399-406 ◽  
Author(s):  
Triantafyllos Chavakis ◽  
Jindrich Chmelar ◽  
Kyoung-Jin Chung

SummaryObesity is characterised by a chronic state of low-grade inflammation in different tissues including the vasculature. There is a causal link between adipose tissue (AT) inflammation and obesity-related metabolic complications, such as the development of insulin resistance and subsequently of type 2 diabetes. Intense efforts in the recent years have aimed at dissecting the pathophysiology of AT inflammation. The role of both innate and adaptive immune cells, such as macrophages or cytotoxic T cells in AT inflammation has been demonstrated. Besides these cells, more leukocyte subpopulations have been recently implicated in obesity, including neutrophils and eosinophils, mast cells, natural killer cells or dendritic cells. The involvement of multiple leukocyte subpopulations underlines the complexity of obesity-associated AT inflammation. In this review, we discuss the role of innate immune cells in AT inflammation, obesity and related metabolic disorders.


2021 ◽  
Vol 22 (5) ◽  
pp. 2578
Author(s):  
Trim Lajqi ◽  
Christian Marx ◽  
Hannes Hudalla ◽  
Fabienne Haas ◽  
Silke Große ◽  
...  

Microglia, the innate immune cells of the CNS, exhibit long-term response changes indicative of innate immune memory (IIM). Our previous studies revealed IIM patterns of microglia with opposing immune phenotypes: trained immunity after a low dose and immune tolerance after a high dose challenge with pathogen-associated molecular patterns (PAMP). Compelling evidence shows that innate immune cells adopt features of IIM via immunometabolic control. However, immunometabolic reprogramming involved in the regulation of IIM in microglia has not been fully addressed. Here, we evaluated the impact of dose-dependent microglial priming with ultra-low (ULP, 1 fg/mL) and high (HP, 100 ng/mL) lipopolysaccharide (LPS) doses on immunometabolic rewiring. Furthermore, we addressed the role of PI3Kγ on immunometabolic control using naïve primary microglia derived from newborn wild-type mice, PI3Kγ-deficient mice and mice carrying a targeted mutation causing loss of lipid kinase activity. We found that ULP-induced IIM triggered an enhancement of oxygen consumption and ATP production. In contrast, HP was followed by suppressed oxygen consumption and glycolytic activity indicative of immune tolerance. PI3Kγ inhibited glycolysis due to modulation of cAMP-dependent pathways. However, no impact of specific PI3Kγ signaling on immunometabolic rewiring due to dose-dependent LPS priming was detected. In conclusion, immunometabolic reprogramming of microglia is involved in IIM in a dose-dependent manner via the glycolytic pathway, oxygen consumption and ATP production: ULP (ultra-low-dose priming) increases it, while HP reduces it.


Author(s):  
Rodolfo Perez-Alamino ◽  
Raquel Cuchacovich ◽  
Luis R. Espinoza ◽  
Constance P. Porretta ◽  
Arnold H. Zea

2021 ◽  
Vol 12 ◽  
Author(s):  
Alecia M. Blaszczak ◽  
Anahita Jalilvand ◽  
Willa A. Hsueh

The role of adipose tissue (AT) inflammation in obesity and its multiple related-complications is a rapidly expanding area of scientific interest. Within the last 30 years, the role of the adipocyte as an endocrine and immunologic cell has been progressively established. Like the macrophage, the adipocyte is capable of linking the innate and adaptive immune system through the secretion of adipokines and cytokines; exosome release of lipids, hormones, and microRNAs; and contact interaction with other immune cells. Key innate immune cells in AT include adipocytes, macrophages, neutrophils, and innate lymphoid cells type 2 (ILC2s). The role of the innate immune system in promoting adipose tissue inflammation in obesity will be highlighted in this review. T cells and B cells also play important roles in contributing to AT inflammation and are discussed in this series in the chapter on adaptive immunity.


Hepatology ◽  
2019 ◽  
Vol 70 (3) ◽  
pp. 1026-1037 ◽  
Author(s):  
Jingjing Cai ◽  
Xiao‐Jing Zhang ◽  
Hongliang Li

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