Chommanad Lerdkrai scite author profile

The dynamics of β-amyloid deposition and related second-order physiological effects, such as regional cerebral blood flow (rCBF), are key factors for a deeper understanding of Alzheimer's disease (AD). We present longitudinal in vivo data on the dynamics of β-amyloid deposition and the decline of rCBF in two different amyloid precursor protein (APP) transgenic mouse models of AD. Using a multiparametric positron emission tomography and magnetic resonance imaging approach, we demonstrate that in the presence of cerebral β-amyloid angiopathy (CAA), β-amyloid deposition is accompanied by a decline of rCBF. Loss of perfusion correlates with the growth of β-amyloid plaque burden but is not related to the number of CAA-induced microhemorrhages. However, in a mouse model of parenchymal β-amyloidosis and negligible CAA, rCBF is unchanged. Because synaptically driven spontaneous network activity is similar in both transgenic mouse strains, we conclude that the disease-related decline of rCBF is caused by CAA.

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Intracellular Ca ²⁺ stores control in vivo neuronal hyperactivity in a mouse model of Alzheimer’s disease

Lerdkrai

Asavapanumas

Brawek

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

120

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Neuronal hyperactivity is the emerging functional hallmark of Alzheimer's disease (AD) in both humans and different mouse models, mediating an impairment of memory and cognition. The mechanisms underlying neuronal hyperactivity remain, however, elusive. In vivo Ca imaging of somatic, dendritic, and axonal activity patterns of cortical neurons revealed that both healthy aging and AD-related mutations augment neuronal hyperactivity. The AD-related enhancement occurred even without amyloid deposition and neuroinflammation, mainly due to presenilin-mediated dysfunction of intracellular Ca stores in presynaptic boutons, likely causing more frequent activation of synaptic NMDA receptors. In mutant but not wild-type mice, store emptying reduced both the frequency and amplitude of presynaptic Ca transients and, most importantly, normalized neuronal network activity. Postsynaptically, the store dysfunction was minor and largely restricted to hyperactive cells. These findings identify presynaptic Ca stores as a key element controlling AD-related neuronal hyperactivity and as a target for disease-modifying treatments.

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Impairment of in vivo calcium signaling in amyloid plaque-associated microglia

et al. 2014

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Neuroinflammation is a hallmark of Alzheimer's disease (AD) both in man and in multiple mouse models, and epidemiological studies link the use of anti-inflammatory drugs with a reduced risk of developing the disease. AD-related neuroinflammation is largely mediated by microglia, the main immune cells of the central nervous system. In vitro, executive functions of microglia are regulated by intracellular Ca(2+) signals, but little is known about microglial Ca(2+) signaling in vivo. Here we analyze in vivo properties of these cells in two mouse models of AD. In both strains plaque-associated microglia had hypertrophic/amoeboid morphology and were strongly positive for markers of activation such as CD11b and CD68. Activated microglia failed to respond reliably to extracellular release of adenosine triphosphate (ATP, mimicking tissue damage) and showed an increased incidence of spontaneous intracellular Ca(2+) transients. These Ca(2+) transients required activation of ATP receptors and Ca(2+) release from the intracellular Ca(2+) stores, and were not induced by neuronal or astrocytic hyperactivity. Neuronal silencing, however, selectively increased the frequency of Ca(2+) transients in plaque-associated microglia. Thus, our in vivo data reveal substantial dysfunction of plaque-associated microglia and identify a novel Ca(2+) signal possibly triggering a Ca(2+)-dependent release of toxic species in the plaque vicinity.

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A bell-shaped dependence between amyloidosis and GABA accumulation in astrocytes in a mouse model of Alzheimer's disease

Brawek

Chesters

Klement

et al. 2018

Neurobiology of Aging

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A novel multiplex polymerase chain reaction assay for the genotypic survey of the non-homologous end-joining factor 1 gene associated with Collie eye anomaly in Thailand

Lerdkrai

Phungphosop

2022

Vet World

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Background and Aim: Collie eye anomaly (CEA) is a hereditary and congenital ocular disorder, which affects several dog breeds, including Collies, Collie-related breeds, and other purebreds. An intronic deletion of 7799-bp in the non-homologous end-joining factor 1 (NHEJ1) gene has been identified as the genetic defect causing CEA. This study aimed to investigate the prevalence of CEA based on NHEJ1 genotyping assay in Thailand. Materials and Methods: We clarified the prevalence of CEA in 224 dogs from five purebred dog breeds using a novel multiplex polymerase chain reaction (PCR)-based technique and confirmed the genotypic status with direct DNA sequencing. Results: The highest frequency of the mutated NHEJ1 allele was 83.3% for Rough Collies, followed by 7.8% for Border Collies, 5.1% for Australian Shepherds, and 2.8% for Shetland Sheepdogs. The heterozygous mutated NHEJ1 genotype detected for Rough Collies, Border Collies, Australian Shepherds, and Shetland Sheepdogs was 33.3%, 15.6%, 10.3%, and 3.3%, respectively. The homozygous mutated NHEJ1 genotype was detected only in Rough Collies and Shetland Sheepdogs, accounting for 66.7% and 1.1%, respectively. Thai Ridgeback Dogs were not affected by this mutation. Conclusion: This study describes, for the 1st time, the genotypic survey of the NHEJ1 gene associated with CEA in dogs in Thailand. In addition, we successfully developed a new multiplex PCR assay with high accuracy, reproducibility, and cost-efficiency and validated its usefulness for determining NHEJ1 genotypes.

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