Abstract

The complement system is involved in promoting secondary injury after traumatic brain injury (TBI), but the roles of the classical and lectin pathways leading to complement activation need to be clarified. To this end, we aimed to determine the ability of the brain to activate the synthesis of classical and lectin pathway initiators in response to TBI and to examine their expression in primary microglial cell cultures. We have modeled TBI in mice by controlled cortical impact (CCI), a clinically relevant experimental model. Using Real-time quantitative polymerase chain reaction (RT-qPCR) we analyzed the expression of initiators of classical the complement component 1q, 1r and 1s (C1q, C1r, and C1s) and lectin (mannose binding lectin A, mannose binding lectin C, collectin 11, ficolin A, and ficolin B) complement pathways and other cellular markers in four brain areas (cortex, striatum, thalamus and hippocampus) of mice exposed to CCI from 24 h and up to 5 weeks. In all murine ipsilateral brain structures assessed, we detected long-lasting, time- and area-dependent significant increases in the mRNA levels of all classical (C1q, C1s, C1r) and some lectin (collectin 11, ficolin A, ficolin B) initiator molecules after TBI. In parallel, we observed significantly enhanced expression of cellular markers for neutrophils (Cd177), T cells (Cd8), astrocytes (glial fibrillary acidic protein—GFAP), microglia/macrophages (allograft inflammatory factor 1—IBA-1), and microglia (transmembrane protein 119—TMEM119); moreover, we detected astrocytes (GFAP) and microglia/macrophages (IBA-1) protein level strong upregulation in all analyzed brain areas. Further, the results obtained in primary microglial cell cultures suggested that these cells may be largely responsible for the biosynthesis of classical pathway initiators. However, microglia are unlikely to be responsible for the production of the lectin pathway initiators. Immunofluorescence analysis confirmed that at the site of brain injury, the C1q is localized in microglia/macrophages and neurons but not in astroglial cells. In sum, the brain strongly reacts to TBI by activating the local synthesis of classical and lectin complement pathway activators. Thus, the brain responds to TBI with a strong, widespread and persistent upregulation of complement components, the targeting of which may provide protection in TBI.

Highlights

  • Traumatic brain injury (TBI) persists as a leading cause of disability and mortality affecting the worldwide community

  • We observed a significant increase in IBA-1 mRNA levels in all analyzed brain structures

  • Our results indicate that initiators of complement system activation in the ipsilateral brain structures may be responsible for cellular activation and chemotaxis

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Summary

Introduction

Traumatic brain injury (TBI) persists as a leading cause of disability and mortality affecting the worldwide community. TBI is known to be associated with primary mechanical damage that results in secondary pathogenic cellular cascades, activated within minutes following injury, that interacts in a complex network, which leads to cell death or recovery [1]. In patients surviving TBI, this secondary injury cascade, which is closely related to activation of the inflammatory response, is believed to be responsible for the evolution of the brain damage [2,3]. Not enough is known about the cellular and molecular changes occurring during the secondary damage, which evolves over days after the injury. Gaining knowledge about these changes will be very important for development of novel pharmacological and therapeutic interventions [4].

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