Genetics to MRI‐DTI: HFE mutation delays AD white matter degeneration in ApoE4 carriers

Abstract

AbstractBackgroundThe HFE gene involves iron metabolism that directly participates in white matter (WM) myelination process. ApoE4 are known to affect normal myelination through disruptions of iron and lipid metabolism in AD. Thus, we investigated the effect of HFE SNP concurred with the ApoE4 gene mutation in AD WM degeneration. Associations of a neuronal inflammation marker, CSF sTREM2, with DTI measures and cognitive decline were explored for a mechanism under the context of iron metabolism in AD WM degeneration.MethodWhite matter degeneration of ApoE4 carriers with and without HFEH63D polymorphism was investigated using DTI from ADNI database.1 Soluble TREM2 (sTREM2) and pathological protein concentrations in CSF were measured for each CN and AD patients with and without HFE SNP concurred with the ApoE4 gene mutation.ResultMean diffusivity and radial diffusivity of DTI demonstrated an extensive and precipitous age‐related WM degeneration in ADWT/ApoE4+ carriers (as shown in Figure1). This WM degeneration was significantly attenuated in the ADH63D/ApoE4+ subjects with lessened cognitive decline (as shown in Table1, Figure1). The decreased CDR‐cognitive impairment in AD subjects was negatively associated with sTREM2 and positively associated with RD of bilateral inferior longitudinal fasciculus and PTAU (as shown in Table2).ConclusionThe attenuation of WM degeneration and cognitive decline by HFEH63D in AD ApoE4 carriers during aging may involve an effect of reducing neuroinflammation during aging, consistent with reports that HFEH63D establishes a neuroprotective milieu2 and attenuates AD WM neurodegeneration.3 Our in‐vivo data establish a link between interactions of genetic mutation of ApoE with HFE and AD WM degeneration during aging.Reference1. Meadowcroft MD, Wang J, Purnell CJ, et al. Reduced Cerebral White Matter Integrity Assessed by DTI in Cognitively Normal H63D‐HFE Polymorphism Carriers. J Neuroimaging. 2018;28:126‐133.2. Wang L, Johnson EE, Shi HN, Walker WA, Wessling‐Resnick M, Cherayil BJ. Attenuated inflammatory responses in hemochromatosis reveal a role for iron in the regulation of macrophage cytokine translation. J Immunol. 2008;181:2723‐2731.3. Urrutia PJ, Hirsch EC, González‐Billault C, Núñez MT. Hepcidin attenuates amyloid beta‐induced inflammatory and pro‐oxidant responses in astrocytes and microglia. J Neurochem. 2017; 142:140‐152.