Diverse Responses of Neurons and Monocytes to Titanium Dioxide Nanoparticle Exposure

Engin, Ay�e Ba�ak; Engin, Evren Doruk

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Diverse Responses of Neurons and Monocytes to Titanium Dioxide Nanoparticle Exposure [Turk J Immunol]

Turk J Immunol. 2019; 7(1): 40-49 | DOI: 10.25002/tji.2019.1037

Diverse Responses of Neurons and Monocytes to Titanium Dioxide Nanoparticle Exposure

Ay�e Ba�ak Engin¹, Evren Doruk Engin²
¹Gazi University, Faculty of Pharmacy, Department of Toxicology, Ankara, Turkey
²Ankara University, Biotechnology Institute, Tandogan, Ankara, Turkey

Introduction: The toxicity of titanium dioxide nanoparticles (TiO2NPs) in neurons occurs by glutamate signaling via N-methyl-d-aspartate (NMDA) receptors. Although cellular uptake of TiO2NPs may lead to oxidative stress in macrophages, it is not known whether TiO2NPs have toxic effects on U937 monocytic cell line. Material and Methods: Human neuroblastoma (SH-SY5Y) and U937 human monocytic cell lines were exposed to 25nm and 10nm TiO2NPs, in medium with or without fetal bovine serum (FBS). Mitochondrial metabolic activity was assessed using the MTT-assay before and after treatment with 15 mM N-acetylcysteine (NAC) and 0.1�M or 10�M neopterin. Results: TiO2NPs displayed no toxicity on SH-SY5Y and U937 cells in FBS-free medium. The addition of FBS resulted in a significant reduction in cell viability with both sizes of TiO2NPs on SH-SY5Y and U937 cells. In FBScontaining medium, NAC pretreatment significantly increased cell viability of SH-SY5Y cells in comparison to U937 cells. Both neopterin doses enhanced cell viability of TiO2NPs-exposed SH-SY5Y cells for all concentrations. Only a limited increase in the cell viability was achieved in 10nm TiO2NPs-exposed neurons by pretreatment with neopterin. Whereas, neopterin could not provide a constant amelioration for both 25nm and 10nm sized TiO2NPs-exposed U937 monocytic cells. TiO2NPs displayed size-dependent neuronal toxicity. In FBS-containing medium, both sizes of TiO2NPs caused reduction in cell viability of both cell lines. Conclusion: While toxicity of TiO2NPs emerged via NMDA and AMPA receptors in SH SY5Y cells, U937 cells were most probably activated by AMPA receptors only. Unlike SHSY5Y cells, NADPH oxidase complex inhibition was not effective in TiO2NPs exposed U937 cells.

Keywords: Titanium dioxide nanoparticle, N-acetyl cysteine, neopterin, U937 monocytic cells, SH-SY5Y neuroblastoma cells, N-methyl-D-aspartate receptors

Titanyum Dioksit Nanopartik�l Maruziyetinde N�ron ve Monositlerin Farkl� Yan�tlar�

Ay�e Ba�ak Engin¹, Evren Doruk Engin²
¹Gazi University, Faculty of Pharmacy, Department of Toxicology, Ankara, Turkey
²Ankara University, Biotechnology Institute, Tandogan, Ankara, Turkey

Giri�: Titanyum dioksit nanopartik�llerinin (TiO�NP) toksisitesi n�ronlarda N-metil-D-aspartat (NMDA) resept�rleri arac�l��yla glutamat sinyal iletimi ile meydana gelir. TiO�NP makrofajlar taraf�ndan h�cre i�ine al�nmas� oksidatif strese neden olmakla birlikte, U937 monositik h�creleri �zerine TiO�NP toksik etki g�sterip g�stermedi�i bilinmemektedir. Gere� ve Y�ntemler: �nsan n�roblastoma (SH-SY5Y) ve U937 insan monositik h�cre hatlar� 25nm ve 10nm TiO�NP ile fetal s��r serumu (FBS) varl��nda ya da yoklu�unda ink�be edildi. Mitokondriyal metabolik aktivite 15 mM N-asetil sistein (NAC) ve 0.1�M veya 10�M neopterin uygulanmadan �nce ve sonra MTT ile tayin edildi. Bulgular: TiO�NP, FBS i�ermeyen besi yerinde SH-SY5Y ve U937 h�crelerinde canl�l�klar� de�i�tirmedi. Her iki boyuttaki TiO�NP i�in de ortama FBS eklenmesi SH-SY5Y ve U937 h�crelerinin canl�l�klar�n�n anlaml� olarak azalmas�na neden oldu. FBS i�eren besi yerinde NAC ile �nceden muamele, SH-SY5Y h�cre canl�l�klar�n� U937�lere g�re anlaml� olarak art�rd�. Her iki neopterin dozu da b�t�n TiO�NP konsantrasyonlar� i�in SH-SY5Y h�crelerinin canl�l�klar�nda art��a neden oldu. 10nm TiO�NP�e maruz kalan SH-SY5Y h�crelerinin canl�l�� neopterin ile k�s�tl� miktarda d�zeltilebildi. Ancak, neopterin ilavesi, 10nm ve 25nm TiO�NP maruz kalan U937 monositik h�crelerinin canl�l�klar� �zerine etkili olamad�. TiO�NP n�rotoksisitesi partik�l b�y�kl�� ba��ml�d�r. FBS i�eren besi yerlerinde her iki h�cre hatt�n�n da canl�l�� TiO�NP ile azalm��t�r. Sonu�: TiO�NP toksisitesine SH-SY5Y h�crelerinde hem NMDA hem de AMPA resept�rleri arac�l�k ederken, U937 h�crelerinde b�y�k olas�l�kla sadece AMPA resept�rleri g�rev almaktad�r. SH-SY5Y h�crelerinin aksine U937 h�crelerinde NADPH oksidaz kompleksinin inhibisyonu TiO�NP toksisitesi �zerine etkili olmam��t�r.

Anahtar Kelimeler: Anahtar Kelimeler: Titanyum dioksit nanopartik�l�, N-asetil sistein, neopterin, U937 monositik h�creleri, SH-SY5Y n�roblastoma h�creleri, N-metil-D-aspartat resept�r�

Ay�e Ba�ak Engin, Evren Doruk Engin. Diverse Responses of Neurons and Monocytes to Titanium Dioxide Nanoparticle Exposure. Turk J Immunol. 2019; 7(1): 40-49
Manuscript Language: English

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Diverse Responses of Neurons and Monocytes to Titanium Dioxide Nanoparticle Exposure

Titanyum Dioksit Nanopartik�l Maruziyetinde N�ron ve Monositlerin Farkl� Yan�tlar�