Abstract
Progranulin (PGRN) is a growth factor implicated in several neurodegenerative diseases, such as frontotemporal lobar degeneration. Despite its important role in the central nervous system (CNS), the mechanisms controlling PGRN expression in the CNS are largely unknown. Recent evidence, however, suggested that several stressors, such as hypoxia, acidosis, or oxidative stress, induce PGRN expression. The present study was mainly aimed at determining whether and, if so, how glucose deprivation affects PGRN expression in PC12 cells. Initially, it was found that glucose deprivation gradually induced PGRN gene expression in PC12 cells. To elucidate the underlying molecular mechanisms, several intracellular signalings that were modified in response to glucose deprivation were examined. Both adenosine monophosphate kinase (AMPK) activation and changes in osmotic pressure, which are modified by extracellular glucose concentration, had no effect on PGRN gene expression; on the other hand, p38 activation in response to glucose deprivation played an important role in inducing PGRN gene expression. It was also found that expression of sortilin, a PGRN receptor implicated in PGRN endocytosis, was dramatically reduced by glucose deprivation. In contrast to glucose‐dependent regulation of PGRN gene expression, AMPK activation played a central role in reducing sortilin expression. Overall, the present study suggests that the PGRN–sortilin axis is modulated by glucose deprivation via two distinct mechanisms. As PGRN is neuroprotective, this system may represent a new neuroprotective mechanism activated by glucose deprivation in the CNS.
Highlights
IntroductionTo elucidate the underlying molecular mechanisms, several intracellular signalings that were modified in response to glucose deprivation were examined
Ken-ichi Kawashima1, Yuri Ishiuchi1, Miki Konnai2, Saori Komatsu2, Hitoshi Sato1, Hideo Kawaguchi1,2, Nobumitsu Miyanishi3, Jero^me Lamartine4, Masugi Nishihara5 and Taku Nedachi1,2
To determine whether PGRN gene expression was modified by changes in glucose availability, differentiated PC12 cells were cultured for 24 h in Dulbecco’s modified Eagle’s medium (DMEM) containing different concentrations of glucose [high glucose (HG), 22.5 mM; low glucose (LG), 5 mM; or glucose-free (GF), 0 mM], supplemented with 100 ngÁmLÀ1 nerve growth factor (NGF)
Summary
To elucidate the underlying molecular mechanisms, several intracellular signalings that were modified in response to glucose deprivation were examined Both adenosine monophosphate kinase (AMPK) activation and changes in osmotic pressure, which are modified by extracellular glucose concentration, had no effect on PGRN gene expression; on the other hand, p38 activation in response to glucose deprivation played an important role in inducing PGRN gene expression. Abbreviations ACC, acetyl-CoA carboxylase; AICAR, 5-amino-imidazole-4-carboxamide-1-b-D-ribofuranoside; ALS, amyotrophic lateral sclerosis; AMPK, adenosine monophosphate kinase; ATF, activating transcription factor; CNS, central nervous system; CREB, cyclic AMP-responsive elementbinding protein; DMEM, Dulbecco’s modified Eagle’s medium; FBS, fetal bovine serum; FTLD, frontotemporal lobar degeneration; GEP, granulin epithelin precursor; GF, glucose-free; HG, high glucose; HSP27, heat-shock protein 27; LDH, lactose dehydrogenase; LG, low glucose; N2A, neuro-2 A neuroblastoma; NGF, nerve growth factor; p75NTR, p75 neurotrophin receptor; PCDGF, PC-cell-derived growth factor; PGRN, progranulin; PVDF, polyvinylidene difluoride; ROCK, Rho-associated protein kinase; SIRT1, sirtuin 1; TBS, Tris-buffered saline; VPS, vacuolar protein sorting.
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