Hiroko Nakamura scite author profile

In contrast to cell cultures, particularly to cell lines, tissues or organs removed from the body cannot be maintained for long in any culture conditions. Although it is apparent that in vivo regional homeostasis is facilitated by the microvascular system, mimicking such a system ex vivo is difficult and has not been proved effective. Using the culture system of mouse spermatogenesis, we addressed this issue and devised a simple microfluidic device in which a porous membrane separates a tissue from the flowing medium, conceptually imitating the in vivo relationship between the microvascular flow and surrounding tissue. Testis tissues cultured in this device successfully maintained spermatogenesis for 6 months. The produced sperm were functional to generate healthy offspring with micro-insemination. In addition, the tissue kept producing testosterone and responded to stimulation by luteinizing hormone. These data suggest that the microfluidic device successfully created in vivo-like conditions, in which testis tissue maintained its physiologic functions and homeostasis. The present model of the device, therefore, would provide a valuable foundation of future improvement of culture conditions for various tissues and organs, and revolutionize the organ culture method as a whole.

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Differential apoptotic pathways in human keratinocyte HaCaT cells exposed to UVB and UVC

Takasawa

et al. 2005

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The induction of apoptosis in keratinocytes by ultraviolet (UV)-irradiation is considered to be a protective function against skin cancer. UV-induced DNA damage is a crucial event in UVB- and UVC-mediated apoptosis. However, the differences between the UVB- and UVC-induced apoptotic pathways remain unclear. Here we examine the differential mechanisms by which UVB and UVC irradiations induce keratinocyte apoptosis using human keratinocyte HaCaT cells. Differences in the production of (6-4)photoproducts ((6-4)PPs) and cyclobutane pyrimidine dimers (CPDs) were measured following irradiation with UVB and UVC at doses causing the same extent of apoptotic cell death. In addition, main apoptotic features, such as caspase activation and its regulation, were compared between UVB- and UVC-induced apoptosis. Exposures of 500 J/m(2) UVB and 100 J/m(2) UVC resulted in apoptosis to almost the same extent. At these apoptotic doses, the amounts of both (6-4)PPs and CPDs were significantly larger in the case of UVC irradiation than UVB irradiation; in parallel, the release of cytochrome c and Smac/DIABLO and the activation of caspases-9 following UVC irradiation were greater than after UVB irradiation. Importantly, caspase-8 activation occurred only in UVB-irradiated cells. Furthermore, the activation of caspase-8 was not inhibited by caspases-9 and -3 specific tetrapeptide inhibitors, indicating that the caspase-8 cleavage is not due to feedback from activation of caspases-9 and -3. Thus, these results clearly suggest that the reason apoptosis is induced to the same extent by UVB irradiation as by UVC irradiation, despite the lower production of photoproducts in DNA by UVB irradiation, is attributable to the additional activation of the caspase-8 pathway. Thus, UVB irradiation induces apoptosis through both mitochondrial (intrinsic) and caspase-8 activation (extrinsic) pathways, while UVC induces apoptosis only via the intrinsic pathway.

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Spatiotemporal profiles of dental pulp nociception in rat cerebral cortex: An optical imaging study

Nakamura

Kato

Shirakawa

et al. 2015

J of Comparative Neurology

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Somatosensation is topographically organized in the primary (S1) and secondary somatosensory cortex (S2), which contributes to identify the region receiving sensory inputs. However, it is still unknown how somatosensory inputs from the oral region, especially nociceptive inputs from the teeth, are processed in the somatosensory cortex. We performed in vivo optical imaging and identified the precise cortical regions responding to electrical stimulation of the maxillary and mandibular dental pulp in rats. Electrical stimulation of the mandibular incisor pulp evoked neural excitation in two areas: the most rostroventral part of S1, and the ventral part of S2 caudal to the middle cerebral artery. Maxillary incisor pulp stimulation initially evoked responses only in the ventral part of S2, although later maximum responses were also observed in S1 similar to mandibular incisor stimulation responses. The maxillary and mandibular molar pulp-responding regions were located in the most ventral S2, a part of which was histologically classified as the insular oral region (IOR). In terms of the initial responses, maxillary incisor and molar stimulation induced excitation in the S2/IOR rostral to the mandibular dental pulp-responding region. Contrary to the spatially segregated initial responses, the maximum excitatory areas responding to both incisors and molars in the mandible and maxilla overlapped in S1 and the S2/IOR. Multielectrode extracellular recording supported the characteristic localization of S2/IOR neurons responding to mandibular and maxillary molar pulp stimulation. The discrete and overlapped spatial profiles of initial and maximum responses, respectively, may characterize nociceptive information processing of dental pain in the cortex.

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Mouse zona pellucida dynamically changes its elasticity during oocyte maturation, fertilization and early embryo development

Murayama

Mizuno²,

Kamakura

et al. 2006

Human Cell

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A change in the elasticity of mouse zona pellucida was quantitatively evaluated during oocyte maturation, fertilization and early embryo development. Young's modulus of zona pellucida of germinal vesicle (GV), metaphase-II (MII), pronuclear (PN), 2cell, 4cell, 8cell, morulae (M) and early blastocyst (EB) stages was measured using a micro tactile sensor (MTS) and a chamber exclusively designed for the measurement. The MTS has very high sensitivity and a deformation of only 5 microm was sufficient to calculate the Young's modulus and the oocyte/embryo maintained its original spherical shape during the measurement. The Young's modulus of GV, MII, PN, 2cell, 4cell, 8cell, M and EB was 22.8+/-10.4 kPa (n=30), 8.26+/-5.22 kPa (n=74), 22.3+/-10.5 kPa (n=66), 13.8+/-3.54 kPa (n=41), 12.6+/-3.34 kPa (n=19), 5.97+/-4.97 kPa (n=6), 1.88+/-1.34 kPa (n=8) and 3.39+/-1.86 kPa (n=4), respectively. Experimental results clearly demonstrated that the mouse zona pellucida hardened following fertilization. Interestingly, once the zona pellucida hardened at the PN stage, it gradually softened as the embryo developed (i.e. it was found that the zona hardening is a transient phenomenon). Furthermore, the zona pellucida of the GV oocyte was as hard as that of the PN embryo and became soft as it matured to the MII stage. In addition, the safety of the MTS measurement for oocytes and embryos was discussed both theoretically and experimentally.

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Dicarbonates: Convenient 4-Dimethylaminopyridine Catalyzed Esterification Reagents

et al. 1994

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Hiroko Nakamura

Long-term ex vivo maintenance of testis tissues producing fertile sperm in a microfluidic device

Differential apoptotic pathways in human keratinocyte HaCaT cells exposed to UVB and UVC

Spatiotemporal profiles of dental pulp nociception in rat cerebral cortex: An optical imaging study

Mouse zona pellucida dynamically changes its elasticity during oocyte maturation, fertilization and early embryo development

Dicarbonates: Convenient 4-Dimethylaminopyridine Catalyzed Esterification Reagents

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