Amyloid-β (Aβ) plays a critical role in Alzheimer's disease (AD) and its accumulation in the brain is pivotal to disease progression and precedes memory and neuronal loss. Besides the severely handica Show more
Amyloid-β (Aβ) plays a critical role in Alzheimer's disease (AD) and its accumulation in the brain is pivotal to disease progression and precedes memory and neuronal loss. Besides the severely handicapping brain symptoms, AD patients display early gastro-intestinal (GI) manifestations such as upper and lower GI dysmotility, in particular constipation. Although there is increasing evidence of Aβ accumulation in the gut, its pathogenic effects on enteric nervous system (ENS) connectivity and gut function as well as underlying pathophysiological mechanisms are poorly understood. Furthermore, studies have reported a gut to brain transmission of Aβ that causes memory deficits in mice. Therefore, identifying therapeutics which can reduce Aβ accumulation in the gut at an early stage of the disease could have the advantage of slowing or even reversing disease progression before severe alterations or irreversible damages at both intestinal and brain levels. Hence, in this study, we investigated the capacity of the short-fatty acid butyrate to restore Aβ-driven alteration of ENS connectivity and gut-brain functions in the SAMP8 mouse model of AD. Here we show that SAMP8 mice display a gut amyloid pathology, an alteration of ENS connectivity and gut defects prior to memory decline. BACE1, an Aβ-producing enzyme, expression and activity are increased whereas neprilysin, an Aβ-degrading enzyme, is decreased in the gut of SAMP8 mice, indicating a rise in the Amyloid Precursor Protein (APP) holoprotein processing and a reduction of Aβ clearance which promote an amyloidosis. In primary ENS cultures, Aβ causes a degradation of synaptic-associated proteins EphB2 and synaptophysin, leading to an alteration of ENS connectivity. In wild-type mice, intra-colon delivery of Aβ alters ENS connectivity and causes subsequent GI symptoms, recapitulating the phenotype of the SAMP8 mouse model of aging and AD. Moreover, Aβ impairs ENS connectivity in human induced pluripotent stem cell (iPSC)-derived intestinal organoids and explant cultures of human colon, indicating that Aβ causes ENS lesions in models of the human gut. Butyrate, a short-chain fatty acid derived from bacterial metabolism, reduces Aβ secretion and preserves enteric neuronal connectivity in vitro and in vivo, and blocks Aβ accumulation in the gut, brain and plasma in SAMP8 mice. In addition, butyrate ameliorates neuroinflammation and prevents gut dysfunction and memory deficit. Collectively, these findings suggest that Aβ promotes gut symptoms through alteration of ENS connectivity and butyrate counteracts these impairments with an amelioration of neuroinflammation and memory function in AD model. Show less
Bardet-Biedl syndrome protein 4 (BBS4) localization has been studied in human embryos/fetuses from Carnegie stage 15 to 37 gestational weeks in neurosensory organs and brain, underlying the major clin Show more
Bardet-Biedl syndrome protein 4 (BBS4) localization has been studied in human embryos/fetuses from Carnegie stage 15 to 37 gestational weeks in neurosensory organs and brain, underlying the major clinical signs of BBS. We observed a correlation between the differentiation of the neurosensory cells (hair cells, photoreceptors, olfactory neurons) and the presence of a punctate BBS4 immunostaining in their apical cytoplasm. In the brain, BBS4 was localized in oligodendrocytes and myelinated tracts. In individual myelinated fibers, BBS4 immunolabelling was discontinuous, predominantly at the periphery of the myelin sheath. BBS4 immunolabelling was confirmed in postnatal developing white matter tracts in mouse as well as in mouse oligodendrocytes cultures. In neuroblasts/neurons, BBS4 was only present in reelin-expressing Cajal-Retzius cells. Our results show that BBS4, a protein of the BBSome, has both basal body/ciliary localization in neurosensory organs but extra-ciliary localization in oligodendrocytes. The presence of BBS4 in developing oligodendrocytes and myelin described in the present paper might attribute a new role to this protein, requiring further investigation in the field of myelin formation. Show less
We investigate the critical behavior of three-dimensional antiferromagnetic CP(N-1) (ACP(N-1)) models in cubic lattices, which are characterized by a global U(N) symmetry and a local U(1) gauge symmet Show more
We investigate the critical behavior of three-dimensional antiferromagnetic CP(N-1) (ACP(N-1)) models in cubic lattices, which are characterized by a global U(N) symmetry and a local U(1) gauge symmetry. Assuming that critical fluctuations are associated with a staggered gauge-invariant (Hermitian traceless matrix) order parameter, we determine the corresponding Landau-Ginzburg-Wilson (LGW) model. For N=3 this mapping allows us to conclude that the three-component ACP(2) model undergoes a continuous transition that belongs to the O(8) vector universality class, with an effective enlargement of the symmetry at the critical point. This prediction is confirmed by numerical analyses of the finite-size scaling behaviors of the ACP(2) and the O(8) vector models, which show the same universal features at their transitions. We also present a renormalization-group (RG) analysis of the LGW theories for N≥4. We compute perturbative series in two different renormalization schemes and analyze the corresponding RG flow. We do not find stable fixed points that can be associated with continuous transitions. Show less