Background: Inflammation is one of the effective factors, in the development of functional disorders of the nervous system. Pentoxifylline (PTX) has an inhibitory effect on inflammatory factors. Therefore the aim of this study was to evaluate the effect of PTX on learning, memory and expression of genes, involved in neuronal survival in the rat hippocampus, following systemic lipopolysaccharide (LPS) injection.

Methods: Male rats were randomly divided into 5 groups of control, LPS and LPS + PTX, receiving doses of 10, 25 and 50 mg/kg of PTX, respectively. In LPS groups, LPS was injected (5 mg/kg; intraperitoneal), and after one week, rats received intraperitoneal PTX for 14 days, in the treatment groups. Learning and memory were evaluated by object location task (OLT) and novel object recognition (NOR). Then, the hippocampus was dissected in order to measure the expression of the associated genes.

Results: The results showed that peripheral LPS injection caused significant damage (P < 0.01) to learning and memory with respect to controls, but PTX with doses of 10 and 50 mg/kg prevented these impairments. Results from reverse transcription polymerase chain reaction (RT‑PCR) showed that LPS significantly increased the expression of Bax and TNF‑ with respect to controls. PTX in the LPS + PTX group significantly increased the expression of Bcl‑2, BAD and Caspase‑3.

Conclusions: Other than the increased Bcl‑2 expression, PTX had no significant effect on the expression of other genes, therefore further studies are needed to find out how PTX improves the learning and memory impairments, following the peripheral inflammation.

Stephenson J, Nutma E, van der Valk P, Amor S. Inflammation in

CNS neurodegenerative diseases. Immunology 2018;154:204‑19.

Erickson MA, Dohi K, Banks WA. Neuroinflammation:

A common pathway in CNS diseases as mediated at the

blood‑brain barrier. Neuroimmunomodulation 2012;19:121‑30.

Sweeney MD, Zhao Z, Montagne A, Nelson AR, Zlokovic BV.

Blood‑brain barrier: From physiology to disease and back.

Physiol Rev 2018;99:21‑78.

Yirmiya R, Goshen I. Immune modulation of learning, memory,

neural plasticity and neurogenesis. Brain Behav Immun

;25:181‑213.

Muchhala SK, Benzeroual KE. Pentoxifylline suppressed

LPS‑induced inflammatory and apoptotic signaling in neuronal

cells. Adv Biosci Biotechnol 2012;3:731‑9.

Deree J, Martins JO, Melbostad H, Loomis WH, Coimbra R.

Insights into the regulation of TNF‑a production in human

mononuclear cells: The effects of non‑specific phosphodiesterase

inhibition. Clinics 2008;63:321‑8.

Movassaghi S, Sharifi ZN, Soleimani M, Joghataii MT,

Hashemi M, Shafaroodi H, et al. Effect of pentoxifylline on

ischemia‑induced brain damage and spatial memory impairment

in rat. Iran J Basic Med Sci 2012;15:1083‑90.

Neves KRT, Nobre HV, Leal LKA, de Andrade GM,

Brito GAdC, Viana GSdB. Pentoxifylline neuroprotective effects

are possibly related to its anti‑inflammatory and TNF‑alpha

inhibitory properties, in the 6‑OHDA model of Parkinson’s

disease. Parkinson’s Dis 2015;2015:108179.

Movassaghi S, Sharifi Z‑N, Akhtarzadeh F. Effects of different

doses of pentoxifylline on CA1 pyramidal cells of hippocampus

following brain ischemia in rats. Adv Cogn Sci 2011;13:93‑100.

Cunha GM, Bezerra PJP, Saldanha MD, Cavalcante MlC,

De Brun VM, Viana GS. Pentoxifylline improves learning and

memory in glutamate‑lesioned rats. Pharmacol Biochem Behav

;66:687‑94.

Xaus J, Comalada M, Valledor AF, Lloberas J, López‑Soriano F,

Argilés JM, et al. LPS induces apoptosis in macrophages

mostly through the autocrine production of TNF‑α. Blood

;95:3823‑31.

Morgan MJ, Liu Z‑g. Reactive oxygen species in TNFα‑induced

signaling and cell death. Mol Cells 2010;30:1‑12.

van Horssen R, ten Hagen TL, Eggermont AM. TNF‑α in cancer

treatment: Molecular insights, antitumor effects, and clinical

utility. Oncologist 2006;11:397‑408.

Garner TP, Lopez A, Reyna DE, Spitz AZ, Gavathiotis E.

Progress in targeting the BCL‑2 family of proteins. Curr Opin

Chem Biol 2017;39:133‑42.

Gross A, Katz SG. Non‑apoptotic functions of BCL‑2 family

proteins. Cell Death Differ 2017;24:1348‑58.

Opferman JT, Kothari A. Anti‑apoptotic BCL‑2 family members

in development. Cell Death Differ 2018;25:37‑45.

Youle RJ, Strasser A. The BCL‑2 protein family: Opposing

activities that mediate cell death. Nat Rev Mol Cell Biol

;9:47‑59.

Li R, Tong J, Tan Y, Zhu S, Yang J, Ji M. Low

molecular weight heparin prevents lipopolysaccharide

induced‑hippocampus‑dependent cognitive impairments in mice.

Int J Clin Exp Pathol 2015;8:8881‑91.

Reisi P, Alaei H, Babri S, Sharifi MR, Mohaddes G,

Soleimannejad E. Determination of the extracellular

basal levels of glutamate and GABA at dentate gyrus

of streptozotocin‑induced diabetic rats. Pathophysiology

;16:63‑6.

Gaskin S, Tardif M, Cole E, Piterkin P, Kayello L, Mumby DG.

Object familiarization and novel‑object preference in rats. Behav

Processes 2010;83:61‑71.

Rutten K, Reneerkens O, Hamers H, Şık A, McGregor I,

Prickaerts J, et al. Automated scoring of novel object recognition

in rats. J Neurosci Methods 2008;171:72‑7.

Antunes M, Biala G. The novel object recognition memory:

Neurobiology, test procedure, and its modifications. Cogn

Process 2012;13:93‑110.

Reisi P, Eidelkhani N, Rafiee L, Kazemi M, Radahmadi M,

Alaei H. Effects of doxepin on gene expressions of Bcl‑2 family,

TNF‑α, MAP kinase 14, and Akt1 in the hippocampus of rats

exposed to stress. Res Pharm Sci 2017;12:15‑20.

Lee C‑T, Shang S, Lai L‑W, Yong K‑C, Lien Y‑HH. Effect

of thiazide on renal gene expression of apical calcium

channels and calbindins. Am J Physiol Renal Physiol

;287:F1164‑70.

Lee C‑T, Ng H‑Y, Lee Y‑T, Lai L‑W, Lien Y‑HH. The role of

calbindin‑D28k on renal calcium and magnesium handling during treatment with loop and thiazide diuretics. Am J Physiol

Renal Physiol 2015;310:F230‑6.

Heppner FL, Ransohoff RM, Becher B. Immune attack: The

role of inflammation in Alzheimer disease. Nat Rev Neurosci

;16:358‑72.

Heneka MT, Carson MJ, El Khoury J, Landreth GE, Brosseron F,

Feinstein DL, et al. Neuroinflammation in Alzheimer’s disease.

Lancet Neurol 2015;14:388‑405.

Kinney JW, Bemiller SM, Murtishaw AS, Leisgang AM,

Lamb BT. Inflammation as a central mechanism in Alzheimer’s

disease. Alzheimers Dement 2018;4:575‑90.

Wang X, Quinn PJ. Lipopolysaccharide: Biosynthetic pathway

and structure modification. Prog Lipid Res 2010;49:97‑107.

Layé S, Parnet P, Goujon E, Dantzer R. Peripheral administration

of lipopolysaccharide induces the expression of cytokine

transcripts in the brain and pituitary of mice. Brain Res Mol

Brain Res 1994;27:157‑62.

Rosenberg GA. Neurological diseases in relation to the

blood–brain barrier. J Cereb Blood Flow Metab 2012;32:1139‑51.

Bak M‑J, Truong VL, Kang H‑S, Jun M, Jeong W‑S.

Anti‑inflammatory effect of procyanidins from wild grape (Vitis

amurensis) seeds in LPS‑induced RAW 264.7 cells. Oxid Med

Cell Longev 2013;2013:409321.

ElAli A, Rivest S. Microglia ontology and signaling. Front Cell

Dev Biol 2016;4:72.

Welser‑Alves JV, Milner R. Microglia are the major source of

TNF‑α and TGF‑β1 in postnatal glial cultures; regulation by

cytokines, lipopolysaccharide, and vitronectin. Neurochem Int

;63:47‑53.

Wang L, Du F, Wang X. TNF‑α induces two distinct caspase‑8

activation pathways. Cell 2008;133:693‑703.

Redza‑Dutordoir M, Averill‑Bates DA. Activation of apoptosis

signalling pathways by reactive oxygen species. Biochim

Biophys Acta 2016;1863:2977‑92.

Akbari Z, Reisi P, Torkaman‑Boutorabi A, Farahmandfar M.

The effect of pentoxifylline on passive avoidance learning

and expression of tumor necrosis factor‑alpha and caspase‑3

in the rat hippocampus following lipopolysaccharide‑induced

inflammation. Adv Biomed Res 2019;8:39.

Cheng X, Shen Y, Li R. Targeting TNF: A therapeutic strategy

for Alzheimer’s disease. Drug Discov Today 2014;19:1822‑7.

Tamatani M, Ogawa S, Nuñez G, Tohyama M. Growth

factors prevent changes in Bcl‑2 and Bax expression and

neuronal apoptosis induced by nitric oxide. Cell Death Differ

;5:911‑9.

Dolatabadi HRD, Zarrindast MR, Reisi P, Nasehi M. The effects

of pentoxifylline on serum levels of interleukin 10 and interferon

gamma and memory function in lipopolysaccharide‑induced

inflammation in rats. Adv Biomed Res 2017;6:110.

Edfors F, Danielsson F, Hallström BM, Käll L, Lundberg E,

Pontén F, et al. Gene-specific correlation of RNA and protein

levels in human cells and tissues. Mol Syst Biol 2016;12:883.

Hardwick JM, Soane L. Multiple functions of BCL‑2 family

proteins. Cold Spring Harb Perspect Biol 2013;5:a008722.