Takashi Tominaga scite author profile

C ameleons are genetically encoded fluorescent indicators for Ca 2ϩ based on GFP variants and calmodulin (CaM) (1, 2). They are chimeric proteins composed of a short-wavelength variant of GFP, CaM, a glycylglycine linker, the CaM-binding peptide of myosin light-chain kinase (M13), and a longwavelength variant of GFP. Ca 2ϩ binding to CaM initiates an intramolecular interaction between CaM and M13, which changes the chimeric protein from an extended to a more compact conformation, thereby increasing the efficiency of fluorescence resonance energy transfer (FRET) from the shorter-to the longer-wavelength variant of GFP. Yellow cameleons (YCs) have cyan and yellow fluorescent proteins (CFP and YFP) as the FRET donor and acceptor, respectively. YCs are classified into several groups based on the composition of their Ca 2ϩ -sensing domains. For example, YC2 has an intact CaM and thus shows high affinity for Ca 2ϩ . On the other hand, YC3 and YC4 are low-affinity indicators because of mutations in the Ca 2ϩ -binding loops of their CaM domains. These YCs have been made more resistant to acidification by replacing the original YFP with EYFP.1 (3). The improved YCs include YC2.1 and YC3.1. In addition, some YCs have been made to mature more quickly by using especially bright versions of YFP such as citrine (4) or Venus (5). In this way, YCs have been improved mainly by optimizing the YFP component.Despite the above-mentioned improvements, YCs still suffer from poor dynamic range. The best versions available currently, such as YC2.12 or YC3.12, exhibit at most a 120% change in the ratio of YFP͞CFP upon Ca 2ϩ binding in vitro. These YCs do not have good signal-to-noise ratios, particularly when they are targeted to organelles or submicroscopic environments, because of low levels of signal. It has been also suggested that their dynamic range is attenuated in vivo depending on the abundance of endogenous CaM and CaM-binding proteins that may interact with the sensing domains of YCs.In the present study, we have attempted to modify the acceptor to increase the dynamic range of the indicator. To achieve a Ca 2ϩ -dependent large change in the relative orientation and distance between the fluorophores of CFP and YFP, we assumed that optimization of the length and sequence of the linkers used in YCs would yield only moderate improvement. Thus, we took a more rigorous approach that used a circularly permuted GFP (cpGFP), in which the N and C portions were interchanged and reconnected by a short spacer between the original termini (6, 7). By using cpYFPs that are resistant to acidification and that mature efficiently, we attempted to vary the relative orientation of the two chromophores' transition dipoles. Materials and MethodsGene Construction. The cDNAs of the 5Ј portions of the cpVenus variants were amplified by PCR using sense primers containing a BamHI site and reverse primers containing the sequence encoding the linker (GGSGG) between the natural N and C termini. The cDNAs of their 3Ј portions were extended by PCR at the 5Ј ...

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Entorhinal Cortex Layer III Input to the Hippocampus Is Crucial for Temporal Association Memory

Suh

Rivest

Nakashiba

et al. 2011

Science

318

320

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Associating temporally discontinuous elements is crucial for the formation of episodic and working memories that depend on the hippocampal-entorhinal network. However, the neural circuits subserving these associations have remained unknown. The layer III inputs of the entorhinal cortex to the hippocampus may contribute to this process. To test this hypothesis, we generated a transgenic mouse in which these inputs are specifically inhibited. The mutant mice displayed significant impairments in spatial working-memory tasks and in the encoding phase of trace fear-conditioning. These results indicate a critical role of the entorhinal cortex layer III inputs to the hippocampus in temporal association memory.

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Identification of Multiple Novel Epididymis-Specific β-Defensin Isoforms in Humans and Mice

et al. 2002

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Defensins comprise a family of cationic antimicrobial peptides that are characterized by the presence of six conserved cysteine residues. We identified two novel human β-defensin (hBD) isoforms by mining the public human genomic sequences. The predicted peptides conserve the six-cysteine motif identical with hBD-4, termed hBD-5 and hBD-6. We also evaluated the characteristics of the mouse homologs of hBD-5, hBD-6, and HE2β1, termed mouse β-defensin (mBD)-12, mBD-11, and mouse EP2e (mEP2e). The mBD-12 synthetic peptide showed salt-dependent antimicrobial activity. We demonstrate the epididymis-specific expression pattern of hBD-5, hBD-6, mBD-11, mBD-12, and mEP2e. In situ hybridization revealed mBD-11, mBD-12, and mEP2e expression in the columnar epithelium of the caput epididymis, contrasting with the predominant expression of mBD-3 in the capsule or septum of the whole epididymis. In addition, the regional specificity of mBD-11, mBD-12, and mEP2e was somewhat overlapping, but not identical, in the caput epididymis, suggesting that specific regulation may work for each member of the β-defensin family. Our findings indicated that multiple β-defensin isoforms specifically and cooperatively contribute to the innate immunity of the urogenital system.

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Entorhinal-Hippocampal Interactions Revealed by Real-Time Imaging

Iijima¹,

Witter

Ichikawa³

et al. 1996

Science

218

146

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The entorhinal cortex provides the major cortical input to the hippocampus, and both structures have been implicated in memory processes. The dynamics of neuronal circuits in the entorhinal-hippocampal system were studied in slices by optical imaging with high spatial and temporal resolution. Reverberation of neural activity was detected in the entorhinal cortex and was more prominent when the inhibition due to gamma-aminobutyric acid was slightly suppressed. Neural activity was transferred in a frequency-dependent way from the entorhinal cortex to the hippocampus. The entorhinal neuronal circuit could contribute to memory processes by holding information and selectively gating the entry of information into the hippocampus.

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Neurodegeneration with Tau Accumulation in a Transgenic Mouse Expressing V337M Human Tau

Tanemura

Murayama

Akagi³

et al. 2002

J. Neurosci.

220

118

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Formation of neurofibrillary tangles (NFTs) is a common neuropathological feature found in several neurodegenerative diseases, including Alzheimer's disease. We have developed a transgenic (Tg) mouse expressing mutant human tau (V337M), derived from frontotemporal dementia parkinsonism-17. V337M Tg mice revealed tau aggregations in the hippocampus, which fulfills the histological criteria for NFTs in human neurodegenerative diseases. Concurrent with the accumulation of RNA and phosphorylated tau, neurons exhibited morphological characteristics of degenerating neurons, which include a loss of microtubules, accumulation of ribosomes, plasma and nuclear membrane ruffling, and swelling of the Golgi network. Thus, mutant tau induces neuronal degeneration associated with the accumulation of RNA and phosphorylated tau. The functional consequences of this neuronal degeneration was evidenced by the reduction of hippocampal neural activity and behavioral abnormality in Tg mice.

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