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1.
Anat Sci Int ; 98(3): 353-359, 2023 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-36853492

RESUMO

Correlative microscopy and block-face imaging (CoMBI) is an imaging method, which is characterized by the ability to obtain both serial block-face images as a 3-dimentional (3D) dataset and sections for 2-dimentional (2D) light microscopic analysis. These 3D and 2D morphological data can be correlated with each other to facilitate data interpretation. CoMBI is an easy-to-install and low-cost 3D imaging method since its system can be assembled by the researcher using a regular microtome, consumer digital camera, and some self-made devices, and its installation and instruction manuals are open-source. After the first release of CoMBI method from our laboratory, CoMBI systems have been installed in more than a dozen laboratories and are used for 3D analysis of various biological specimens. Typical application of CoMBI is 3D anatomical analysis using the natural color and contrast of the specimen. We have been using CoMBI for analyzing human brain to obtain the fine 3D anatomy as a reference to determine the causes of neurological diseases and to improve the effectiveness of surgery. Recently, we have been using CoMBI for detecting the colors of chromogens, which are used for labeling specific molecules. Mouse embryos colored with X-gal, a conventional chromogen for detecting LacZ products, were imaged using CoMBI, and the 3D distribution of X-gal was successfully visualized. Thus, CoMBI can now be used for many purposes, including 3D anatomical analysis, 2D microscopy using sections, and 3D distribution of specific molecules. These suggest that CoMBI should be more widely used in the field of biological research.


Assuntos
Disciplinas das Ciências Biológicas , Microscopia , Animais , Camundongos , Humanos , Microscopia/métodos , Imageamento Tridimensional/métodos , Encéfalo/diagnóstico por imagem
2.
Biochem J ; 479(11): 1127-1145, 2022 06 17.
Artigo em Inglês | MEDLINE | ID: mdl-35574701

RESUMO

Voltage-sensing proteins generally consist of voltage-sensor domains and pore-gate domains, forming the voltage-gated ion channels. However, there are several unconventional voltage-sensor proteins that lack pore-gate domains, conferring them unique voltage-sensing machinery. TMEM266, which is expressed in cerebellum granule cells, is one of the interesting voltage-sensing proteins that has a putative intracellular coiled-coil and a functionally unidentified cytosolic region instead of a pore-gate domain. Here, we approached the molecular function of TMEM266 by performing co-immunoprecipitation experiments. We unexpectedly discovered that TMEM266 proteins natively interact with the novel short form splice variants that only have voltage-sensor domains and putative cytosolic coiled-coil region in cerebellum. The crystal structure of coiled-coil region of TMEM266 suggested that these coiled-coil regions play significant roles in forming homodimers. In vitro expression experiments supported the idea that short form TMEM266 (sTMEM266) or full length TMEM266 (fTMEM266) form homodimers. We also performed proximity labeling mass spectrometry analysis for fTMEM266 and sTMEM266 using Neuro-2A, neuroblastoma cells, and fTMEM266 showed more interacting molecules than sTMEM266, suggesting that the C-terminal cytosolic region in fTMEM266 binds to various targets. Finally, TMEM266-deficient animals showed the moderate abnormality in open-field test. The present study provides clues about the novel voltage-sensing mechanism mediated by TMEM266.


Assuntos
Cerebelo , Canais Iônicos , Animais , Canais Iônicos/metabolismo , Camundongos
3.
Science ; 359(6376): 679-684, 2018 02 09.
Artigo em Inglês | MEDLINE | ID: mdl-29439241

RESUMO

Optogenetics has revolutionized the experimental interrogation of neural circuits and holds promise for the treatment of neurological disorders. It is limited, however, because visible light cannot penetrate deep inside brain tissue. Upconversion nanoparticles (UCNPs) absorb tissue-penetrating near-infrared (NIR) light and emit wavelength-specific visible light. Here, we demonstrate that molecularly tailored UCNPs can serve as optogenetic actuators of transcranial NIR light to stimulate deep brain neurons. Transcranial NIR UCNP-mediated optogenetics evoked dopamine release from genetically tagged neurons in the ventral tegmental area, induced brain oscillations through activation of inhibitory neurons in the medial septum, silenced seizure by inhibition of hippocampal excitatory cells, and triggered memory recall. UCNP technology will enable less-invasive optical neuronal activity manipulation with the potential for remote therapy.


Assuntos
Encéfalo/fisiologia , Estimulação Encefálica Profunda/métodos , Nanopartículas , Neurônios/fisiologia , Optogenética/métodos , Animais , Luz , Camundongos , Camundongos Transgênicos
4.
J Physiol ; 587(3): 513-20, 2009 Feb 01.
Artigo em Inglês | MEDLINE | ID: mdl-19074969

RESUMO

Voltage sensors have been well studied in voltage-gated ion channels for neuronal excitation and muscle contraction. The recent discovery of a voltage-sensing phosphatase, VSP, has changed the idea that voltage sensors are unique to ion flux through membranes. Recent findings on mechanisms and potential applications of VSP are reviewed.


Assuntos
Neurônios/fisiologia , Monoéster Fosfórico Hidrolases/fisiologia , Animais , Ativação Enzimática , Humanos , Ativação do Canal Iônico/fisiologia , Canais Iônicos/química , Canais Iônicos/metabolismo , Potenciais da Membrana , Neurônios/enzimologia , PTEN Fosfo-Hidrolase/química , PTEN Fosfo-Hidrolase/metabolismo , Fosfatos de Fosfatidilinositol/metabolismo , Fosfotransferases (Aceptor do Grupo Álcool)/metabolismo , Estrutura Terciária de Proteína/fisiologia
5.
Proc Natl Acad Sci U S A ; 105(23): 7970-5, 2008 Jun 10.
Artigo em Inglês | MEDLINE | ID: mdl-18524949

RESUMO

Phosphatidylinositol lipids play diverse physiological roles, and their concentrations are tightly regulated by various kinases and phosphatases. The enzymatic activity of Ciona intestinalis voltage sensor-containing phosphatase (Ci-VSP), recently identified as a member of the PTEN (phosphatase and tensin homolog deleted on chromosome 10) family of phosphatidylinositol phosphatases, is regulated by its own voltage-sensor domain in a voltage-dependent manner. However, a detailed mechanism of Ci-VSP regulation and its substrate specificity remain unknown. Here we determined the in vitro substrate specificity of Ci-VSP by measuring the phosphoinositide phosphatase activity of the Ci-VSP cytoplasmic phosphatase domain. Despite the high degree of identity shared between the active sites of PTEN and Ci-VSP, Ci-VSP dephosphorylates not only the PTEN substrate, phosphatidylinositol 3,4,5-trisphosphate [PI(3,4,5)P3], but also, unlike PTEN, phosphatidylinositol 4,5-bisphosphate [PI(4,5)P2]. Enzymatic action on PI(4,5)P2 removes the phosphate at position 5 of the inositol ring, resulting in the production of phosphatidylinositol 4-phosphate [PI(4)P]. The active site Cys-X(5)-Arg (CX(5)R) sequence of Ci-VSP differs with that of PTEN only at amino acid 365 where a glycine residue in Ci-VSP is replaced by an alanine in PTEN. Ci-VSP with a G365A mutation no longer dephosphorylates PI(4,5)P2 and is not capable of inducing depolarization-dependent rundown of a PI(4,5)P2-dependent potassium channel. These results indicate that Ci-VSP is a PI(3,4,5)P3/PI(4,5)P2 phosphatase that uniquely functions in the voltage-dependent regulation of ion channels through regulation of PI(4,5)P2 levels.


Assuntos
Ciona intestinalis/enzimologia , PTEN Fosfo-Hidrolase/química , Fosfatidilinositol 4,5-Difosfato/metabolismo , Monoéster Fosfórico Hidrolases/química , Monoéster Fosfórico Hidrolases/metabolismo , Homologia de Sequência de Aminoácidos , Sequência de Aminoácidos , Substituição de Aminoácidos , Animais , Sítios de Ligação , Glicina/metabolismo , Ativação do Canal Iônico , Canais Iônicos/metabolismo , Dados de Sequência Molecular , Proteínas Mutantes/metabolismo , Fosforilação , Especificidade por Substrato , Xenopus
6.
J Biol Chem ; 283(26): 18248-59, 2008 Jun 27.
Artigo em Inglês | MEDLINE | ID: mdl-18375390

RESUMO

The ascidian voltage-sensing phosphatase (Ci-VSP) consists of the voltage sensor domain (VSD) and a cytoplasmic phosphatase region that has significant homology to the phosphatase and tensin homolog deleted on chromosome TEN (PTEN). The phosphatase activity of Ci-VSP is modified by the conformational change of the VSD. In many proteins, two protein modules are bidirectionally coupled, but it is unknown whether the phosphatase domain could affect the movement of the VSD in VSP. We addressed this issue by whole-cell patch recording of gating currents from a teleost VSP (Dr-VSP) cloned from Danio rerio expressed in tsA201 cells. Replacement of a critical cysteine residue, in the phosphatase active center of Dr-VSP, by serine sharpened both ON- and OFF-gating currents. Similar changes were produced by treatment with phosphatase inhibitors, pervanadate and orthovanadate, that constitutively bind to cysteine in the active catalytic center of phosphatases. The distinct kinetics of gating currents dependent on enzyme activity were not because of altered phosphatidylinositol 4,5-bisphosphate levels, because the kinetics of gating current did not change by depletion of phosphatidylinositol 4,5-bisphosphate, as reported by coexpressed KCNQ2/3 channels. These results indicate that the movement of the VSD is influenced by the enzymatic state of the cytoplasmic domain, providing an important clue for understanding mechanisms of coupling between the VSD and its effector.


Assuntos
Regulação da Expressão Gênica , Sequência de Aminoácidos , Animais , Embrião de Galinha , Eletrofisiologia/métodos , Inibidores Enzimáticos/farmacologia , Humanos , Cinética , Camundongos , Dados de Sequência Molecular , Estrutura Terciária de Proteína , Ratos , Urocordados , Xenopus , Peixe-Zebra
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