Doxycycline restrains glia and confers neuroprotection in a 6‐OHDA Parkinson model

Lazzarini, Márcio; Martin, Sabine; Mitkovski, Mišo; Vozari, Rita Raisman; Stühmer, Walter; Bel, Elaine Del

doi:10.1002/glia.22496

Cited by 94 publications

(86 citation statements)

References 161 publications

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“…Co‐injection of intra‐nigral L‐AAA neutralized the LPS‐induced reactive GFAP + astrogliosis and exorbitant S100β production which correlated with a sizeable repression in dopaminergic neuronal loss and nigrostriatal dopamine depletion (Figure a–f). Our findings are similar to those of Lazzarini et al () who have shown that 6‐hydroxydopamine (6‐OHDA)‐induced motor dysfunction and dopaminergic neuropathology in the SNpc & striatum are associated with increases in GFAP + reactive astrocytes when assessed 25 days post unilateral striatal lesioning, whereas the neuroprotection conferred on foot of treatment with the antibiotic doxycycline is associated with a reduction in the nigral & striatal astroglial response to 6‐OHDA. L‐AAA relieves the nigrostriatal dopaminergic tract from the astroglial response to LPS, preventing the dopamine loss and facilitating improvements in motor function.…”

Section: Discussionsupporting

confidence: 91%

L‐alpha‐aminoadipic acid restricts dopaminergic neurodegeneration and motor deficits in an inflammatory model of Parkinson’s disease in male rats

O’Neill

Goisis

Haverty

et al. 2019

J of Neuroscience Research

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Neuroinflammation is a contributory factor underlying the progressive nature of dopaminergic neuronal loss within the substantia nigra (SN) of Parkinson's disease (PD) patients, albeit the role of astrocytes in this process has been relatively unexplored to date. Here, we aimed to investigate the impact of midbrain astrocytic dysfunction in the pathophysiology of intra‐nigral lipopolysaccharide (LPS)‐induced experimental Parkinsonism in male Wistar rats via simultaneous co‐injection of the astrocytic toxin L‐alpha‐aminoadipic acid (L‐AAA). Simultaneous intra‐nigral injection of L‐AAA attenuated the LPS‐induced loss of tyrosine hydroxylase‐positive (TH+) dopamine neurons in the SNpc and suppressed the affiliated degeneration of TH+ dopaminergic nerve terminals in the striatum. L‐AAA also repressed LPS‐induced nigrostriatal dopamine depletion and provided partial protection against ensuing motor dysfunction. L‐AAA abrogated intra‐nigral LPS‐induced glial fibrillary acidic protein‐positive (GFAP+) reactive astrogliosis and attenuated the LPS‐mediated increases in nigral S100β expression levels in a time‐dependent manner, findings which were associated with reduced ionized calcium binding adaptor molecule 1‐positive (Iba1+) microgliosis, thus indicating a role for reactive astrocytes in sustaining microglial activation at the interface of dopaminergic neuronal loss in response to an immune stimulus. These results indicate that midbrain astrocytic dysfunction restricts the development of dopaminergic neuropathology and motor impairments in rats, highlighting reactive astrocytes as key contributors in inflammatory associated degeneration of the nigrostriatal tract.

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Section: Discussionsupporting

confidence: 91%

L‐alpha‐aminoadipic acid restricts dopaminergic neurodegeneration and motor deficits in an inflammatory model of Parkinson’s disease in male rats

O’Neill

Goisis

Haverty

et al. 2019

J of Neuroscience Research

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“…Previous reports have shown reductions in microglia using staining for Iba1 and Mac-1 antigens in the mouse brain after weeks of doxycycline administration implying that the use of this antibiotic could confound studies of brain inflammation (Lazzarini et al, 2013; Sultan et al, 2013). We have therefore considered the possibility that 7 days of 100 mg/kg doxycycline administration might affect the number and morphology of microglia and possibly TH immunoreactivity in the SNc.…”

Section: Discussionmentioning

confidence: 99%

HIV‐1Tat regulation of dopamine transmission and microglial reactivity is brain region specific

Miller

Shaerzadeh

Phan

et al. 2018

Glia

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The transactivator of transcription protein, HIV-1 Tat, is linked to neuroAIDS, where degeneration of dopamine neurons occurs. Using a mouse model expressing GFAP-driven Tat protein under doxycycline (Dox) regulation, we investigated microglial-neuronal interactions in the rostral substantia nigra pars compacta (SNc). Immunohistochemistry for microglia and tyrosine hydroxylase (TH) showed that the ratio of microglia to dopamine neurons is smaller in the SNc than in the ventral tegmental area (VTA) and that this difference is maintained following 7-day Dox exposure in wild type animals. Administration of Dox to wild types had no effect on microglial densities. In addressing the sensitivity of neurons to potentially adverse effects of HIV-1 Tat, we found that HIV-1 Tat exposure in vivo selectively decreased TH immunoreactivity in the SNc but not in the VTA, while levels of TH mRNA in the SNc remained unchanged. HIV-1 Tat induction in vivo did not alter the total number of neurons in these brain regions. Application of Tat (5 ng) into dopamine neurons with whole-cell patch pipette decreased spontaneous firing activity. Tat induction also produced a decline in microglial cell numbers, but no microglial activation. Thus, disappearance of dopaminergic phenotype is due to a loss of TH immunoreactivity rather than to neuronal death, which would have triggered microglial activation. We conclude that adverse effects of HIV-1 Tat produce a hypodopamine state by decreasing TH immunoreactivity and firing activity of dopamine neurons. Reduced microglial numbers after Tat exposure in vivo suggest impaired microglial functions and altered bidirectional interactions between dopamine neurons and microglia.

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“…In adult rats, we disrupted the sympathetic innervation of the PG by either performing a bilateral surgical removal of the SCG (SCGx), or by performing a decentralization procedure of the SCG (SCGd), which severed the connection between the ganglion and the sympathetic nerve trunk but left the SCG and its efferent nerves intact (Hartley et al, 2015;Savastano et al, 2010). We also challenged separate groups of adult rats pharmacologically, either via intraperitoneal (IP) administration of gramnegative bacteria wall components, lipopolysaccharides (LPS) (Ajmone-Cat et al, 2003;Cacci et al, 2008;Cunningham, Martinez-Cerdeño, & Noctor, 2013;Jiang-Shieh et al, 2005;Li et al, 2007;Xie et al, 2017), or by IP administration of the antibiotic doxycycline (DOX), which is an inhibitor of microglial function (Jantzie, Cheung, & Todd, 2005;Lazzarini et al, 2013;Santa-Cecilia et al, 2016;Sultan, Gebara, & Toni, 2013;Yrjanheikki, Keinanen, Pellikka, Hokfelt, & Koistinaho, 1998). The manipulations applied here stem from our current understanding about the tight interplay between microglia and neuronal activity, and between microglia and inflammatory elements induced by peripheral insults, such as bacterial infections (Catorce & Gevorkian, 2016;Colonna & Butovsky, 2017;Wake et al, 2013;Xie et al, 2017).…”

mentioning

confidence: 99%

Differential response of pineal microglia to surgical versus pharmacological stimuli

Rodriguez

Galiana

Rasmussen

et al. 2018

J of Comparative Neurology

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Microglial cells are one of the interstitial elements of the pineal gland (PG). We recently reported the pattern of microglia colonization and activation, and microglia-Pax6+ cell interactions during normal pineal ontogeny. Here, we describe the dynamics of microglia- Pax6+ cell associations and interactions after surgical or pharmacological manipulation. In adult rats, the superior cervical ganglia (SCG) were exposed, and either bilaterally excised (SCGx) or decentralized (SCGd). In the SCGx PGs, the density of Iba1+ microglia increased after surgery and returned to sham baseline levels 13 days later. Pineal microglia also responded to SCGd, a more subtle denervation. The number of clustered Iba1+/PCNA+/ED1+ microglia was higher four days after both surgeries compared to the sham-operated group. However, the number of Pax6+/PCNA− cells and the percentage of Pax6+ cells contacted by and/or phagocytosed by microglia increased significantly only after SCGx. Separate groups of rats were treated with either bacterial lipopolysaccharides (LPS) or doxycycline (DOX) to activate or inhibit pineal microglia, respectively. Peripheral LPS administration caused an increase in the number of clustered Iba1+/PCNA+/ED1+ microglial cells, and in the percentage of Pax6+ cells associated with and/or engulfed by microglia. In the LPS-treated PGs, we also noted an increase in the number of PCNA+ cells that were Iba1− within the microglial cell clusters. The density of Pax6+ cells did not change after LPS treatment. DOX administration did not influence the parameters analyzed. These data suggest that pineal microglia are highly receptive cells capable of rapidly responding in a differential manner to surgical and pharmacological stimuli.

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Doxycycline restrains glia and confers neuroprotection in a 6‐OHDA Parkinson model

Cited by 94 publications

References 161 publications

L‐alpha‐aminoadipic acid restricts dopaminergic neurodegeneration and motor deficits in an inflammatory model of Parkinson’s disease in male rats

L‐alpha‐aminoadipic acid restricts dopaminergic neurodegeneration and motor deficits in an inflammatory model of Parkinson’s disease in male rats

HIV‐1Tat regulation of dopamine transmission and microglial reactivity is brain region specific

Differential response of pineal microglia to surgical versus pharmacological stimuli

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