Effect of overnight smoking abstinence on a marker for microglial activation: a [11C]DAA1106 positron emission tomography study

Brody, Arthur L.; Gehlbach, Daniel; Garcia, Lizette Y; Enoki, Ryutaro; Hoh, Carl K.; Vera, David R.; Kotta, Kishore K.; London, Edythe D.; Okita, Kyoji; Nurmi, Erika L.; Seaman, Lauren C.; Mandelkern, M.

doi:10.1007/s00213-018-5077-3

Cited by 26 publications

(22 citation statements)

References 84 publications

(120 reference statements)

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“…Therefore, the neuroimmune effects of tobacco smoking are likely subtler than chronic activation of the brain's immune system. The present finding is not consistent with previous TSPO PET imaging reports that tobacco smokers exhibited lower brain SUV levels at early times post-injection (20-40 min) compared with nonsmokers (22,23). Considering that our study exhibits sufficient power to detect medium effect sizes, underlying methodological issues likely explain the seemingly conflicting results.…”

Section: Discussioncontrasting

confidence: 99%

“…Based on preclinical research demonstrating that tobacco smoke exposure increased neuroimmune markers (20,21), we hypothesized that tobacco smokers would have higher TSPO levels compared to nonsmokers. Interestingly, two previous studies reported significantly lower brain concentrations of a TSPOspecific radioligand in the brains of tobacco smokers compared to nonsmokers (22,23). A major limitation of these reports was the outcome measure of normalized radioligand concentrations in brain (standardized uptake value; SUV).…”

Section: Introductionmentioning

confidence: 98%

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Tobacco Smoking in People Is Not Associated with Altered 18-kDa Translocator Protein Levels: A PET Study

et al. 2020

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Rationale:The effects of tobacco smoking on the brain's immune system are not well elucidated. While nicotine is immunosuppressive, other constituents in tobacco smoke have inflammatory effects. Positron Emission Tomography (PET) imaging of the 18-kDa translocator protein (TSPO) provide a biomarker for microglia, the brain's primary immunocompetent cells. This work compared brain TSPO levels in 20 tobacco smokers (abstinent for at least 2 hours) and 20 nonsmokers using a fully quantitative modeling approach for the first time.Methods: [ 11 C]PBR28 PET scans were acquired with arterial blood sampling to estimate the metabolite-corrected input function. [ 11 C]PBR28 volumes of distribution (V T ) were estimated throughout the brain with multilinear analysis.Results: Statistical analyses revealed no evidence for significant differences in regional [ 11 C]PBR28 V T between smokers and non-smokers (whole-brain Cohen's d=0.09) despite adequate power to detect medium effect sizes.Conclusions: These findings inform previous PET studies reporting lower TSPO radiotracer concentrations in brain (measured as standardized uptake value, SUV) of tobacco smokers compared to nonsmokers by demonstrating the importance of accounting for radiotracer concentrations in plasma. These findings suggest that compared to nonsmokers, smokers have comparable TSPO levels in brain. Additional work with other biomarkers is needed to fully characterize effects of tobacco smoking on the brain's immune system.

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Section: Discussioncontrasting

confidence: 99%

Section: Introductionmentioning

confidence: 98%

Tobacco Smoking in People Is Not Associated with Altered 18-kDa Translocator Protein Levels: A PET Study

et al. 2020

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“…However, results of a PET study showed no association with cocaine use on brain TSPO binding (using a second‐generation tracer) in the human 33 . Brody et al 37–38 have reported cigarette smoking linked to a modest reduction in TSPO expression and therefore might be a confounding factor, as most MA users of our study used tobacco; however, this finding was not recently replicated by Hillmer et al 39 who employed, unlike Brody, arterial sampling to determine total distribution volume. Furthermore, we found no significant difference using an ANCOVA between brain TSPO binding in the small MA smoking (n = 8) and nonsmoking groups (n = 3) and no significant correlation between [F‐18]FEPPA binding and number of cigarettes typically used.…”

Section: Discussioncontrasting

confidence: 57%

“…However, results of a PET study showed no association with cocaine use on brain TSPO binding (using a secondgeneration tracer) in the human. 33 Brody et al 37,38 40 ; in our small sampled study, we do not find difference between MA users who used cannabis vs those who did not.…”

Section: Resultscontrasting

confidence: 50%

Microglia imaging in methamphetamine use disorder: a positron emission tomography study with the 18 kDa translocator protein radioligand [F‐18]FEPPA

et al. 2020

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Activation of brain microglial cells, microgliosis, has been linked to methamphetamine (MA)-seeking behavior, suggesting that microglia could be a new therapeutic target for MA use disorder. Animal data show marked brain microglial activation following acute high-dose MA, but microglial status in human MA users is uncertain, with one positron emission tomography (PET) investigation reporting massively and globally increased translocator protein 18 kDa (TSPO; [C-11](R)-PK11195) binding, a biomarker for microgliosis, in MA users. Our aim was to measure binding of a secondgeneration TSPO radioligand, [F-18]FEPPA, in brain of human chronic MA users. Regional total volume of distribution (V T) of [F-18]FEPPA was estimated with a twotissue compartment model with arterial plasma input function for 10 regions of interest in 11 actively using MA users and 26 controls. A RM-ANOVA corrected for TSPO rs6971 polymorphism was employed to test significance. There was no main effect of group on [F-18]FEPPA V T (P = .81). No significant correlations between [F-18] FEPPA V T and MA use duration, weekly dosage, blood MA concentrations, regional brain volumes, and self-reported craving were observed. Our preliminary findings, consistent with our earlier postmortem data, do not suggest substantial brain microgliosis in MA use disorder but do not rule out microglia as a therapeutic target in MA addiction. Absence of increased [F-18]FEPPA TSPO binding might be related to insufficient MA dose or blunting of microglial response following repeated MA exposure, as suggested by some animal data.

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“…Due to the above-mentioned limitations of [ 11 C] 1 , development of novel radioligands with greater binding specificity and higher brain uptake was pursued. More than 50 novel PET tracers for TSPO have been reported, including [ 11 C]PBR28 [ 11 C]DAA1106 [ 11 C]DPA713 [ 11 C]vinpocetine [ 11 C]DAC [ 18 F]PBR06 [ 18 F]DPA-714 [ 18 F]PBR111 [ 18 F]FEPPA, and others 94 , 95 , 96 , 97 , 98 , 99 , 100 , 101 , 102 ( Fig. 2 ).…”

Section: Development Of Radioligands Targeting Tspomentioning

confidence: 99%

Recent developments on PET radiotracers for TSPO and their applications in neuroimaging

Zhang

Shao

et al. 2021

Acta Pharmaceutica Sinica B

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The 18 kDa translocator protein (TSPO), previously known as the peripheral benzodiazepine receptor, is predominately localized to the outer mitochondrial membrane in steroidogenic cells. Brain TSPO expression is relatively low under physiological conditions, but is upregulated in response to glial cell activation. As the primary index of neuroinflammation, TSPO is implicated in the pathogenesis and progression of numerous neuropsychiatric disorders and neurodegenerative diseases, including Alzheimer's disease (AD), amyotrophic lateral sclerosis (ALS), Parkinson's disease (PD), multiple sclerosis (MS), major depressive disorder (MDD) and obsessive compulsive disorder (OCD). In this context, numerous TSPO-targeted positron emission tomography (PET) tracers have been developed. Among them, several radioligands have advanced to clinical research studies. In this review, we will overview the recent development of TSPO PET tracers, focusing on the radioligand design, radioisotope labeling, pharmacokinetics, and PET imaging evaluation. Additionally, we will consider current limitations, as well as translational potential for future application of TSPO radiopharmaceuticals. This review aims to not only present the challenges in current TSPO PET imaging, but to also provide a new perspective on TSPO targeted PET tracer discovery efforts. Addressing these challenges will facilitate the translation of TSPO in clinical studies of neuroinflammation associated with central nervous system diseases.

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Effect of overnight smoking abstinence on a marker for microglial activation: a [11C]DAA1106 positron emission tomography study

Cited by 26 publications

References 84 publications

Tobacco Smoking in People Is Not Associated with Altered 18-kDa Translocator Protein Levels: A PET Study

Tobacco Smoking in People Is Not Associated with Altered 18-kDa Translocator Protein Levels: A PET Study

Microglia imaging in methamphetamine use disorder: a positron emission tomography study with the 18 kDa translocator protein radioligand [F‐18]FEPPA

Recent developments on PET radiotracers for TSPO and their applications in neuroimaging

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