Yohei Mizuno scite author profile

A new human testicular cancer cell line (TCam-2) was established. The original material of TCam-2 was a primary lesion of a left testicular seminoma (typical pure type seminoma) from a 35 aged male patient. TCam-2 produced neither AFP nor beta-HCG, It showed strong immunoreactivities for 5G9 (anti testicular cancer MoAb), 4B3 (anti PTHrP MoAb) and PALP (placental alkaline phosphatase). The chromosomal analysis revealed 92 modal number and loss of Y chromosome. Histochemical, morphological and chromosomal analysis supported that TCam-2 is from classical seminoma. TCam-2 was transplanted subcutaneously to the back of 6 weeks old scid mice (CB-17 strain), and grew a classical seminomatous tissue.

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An ancestral function of strigolactones as symbiotic rhizosphere signals

Kodama

Rich

Yoda

et al. 2022

Nat Commun

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In flowering plants, strigolactones (SLs) have dual functions as hormones that regulate growth and development, and as rhizosphere signaling molecules that induce symbiosis with arbuscular mycorrhizal (AM) fungi. Here, we report the identification of bryosymbiol (BSB), an SL from the bryophyte Marchantia paleacea. BSB is also found in vascular plants, indicating its origin in the common ancestor of land plants. BSB synthesis is enhanced at AM symbiosis permissive conditions and BSB deficient mutants are impaired in AM symbiosis. In contrast, the absence of BSB synthesis has little effect on the growth and gene expression. We show that the introduction of the SL receptor of Arabidopsis renders M. paleacea cells BSB-responsive. These results suggest that BSB is not perceived by M. paleacea cells due to the lack of cognate SL receptors. We propose that SLs originated as AM symbiosis-inducing rhizosphere signaling molecules and were later recruited as plant hormone.

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Major components of the KARRIKIN INSENSITIVE2-dependent signaling pathway are conserved in the liverwortMarchantia polymorpha

Mizuno

Komatsu

Shimazaki

et al. 2021

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KARRIKIN INSENSITIVE2 (KAI2) was first identified as a receptor of karrikins, smoke-derived germination stimulants. KAI2 is also considered a receptor of an unidentified endogenous molecule called the KAI2-ligand (KL). Upon KAI2 activation, signals are transmitted through degradation of D53/SMXL proteins via MAX2-dependent ubiquitination. Although components in the KAI2-dependent signaling pathway, namely MpKAI2A and MpKAI2B, MpMAX2, and MpSMXL, exist in the genome of the liverwort Marchantia polymorpha, their functions remain unknown. Here, we show that early thallus growth is retarded and gemma dormancy in the dark is suppressed in Mpkai2a and Mpmax2 loss-of-function mutants. These defects are counteracted in Mpkai2a Mpsmxl and Mpmax2 Mpsmxl double mutants indicating that MpKAI2A, MpMAX2 and MpSMXL act in the same genetic pathway. Introduction of MpSMXLd53, in which a domain required for degradation is mutated, into wild-type plants mimicks Mpkai2a and Mpmax2 plants. In addition, detection of citrine fluorescence in Nicotiana benthamiana cells transiently expressing a SMXL-Citrine fusion protein requires treatment with MG132, a proteasome inhibitor. These findings imply that MpSMXL is subjected to degradation, and that degradation of MpSMXL is crucial for MpKAI2A-dependent signaling in M. polymorpha. Therefore, we claim that the basic mechanisms in the KAI2-dependent signaling pathway are conserved in M. polymorpha.

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Distinct segment‐specific functions of calyculin A‐sensitive protein phosphatases in the regulation of cAMP‐triggered events in ejaculated bull spermatozoa

Mizuno

Isono

Kojima

et al. 2015

Molecular Reproduction Devel

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Livestock spermatozoa possess more tenacious suppressors of cAMP-triggered events-including capacitation-associated changes-than laboratory animal spermatozoa, leading to flagellar hyperactivation. In order to identify the suppressors, we examined effects of an inhibitor of serine/threonine protein phosphatases (calyculin A) on cAMP-triggered changes in the protein phosphorylation state, and subsequent occurrence of hyperactivation and acrosome reaction in ejaculated bull spermatozoa. Ejaculated spermatozoa were incubated in cAMP-supplemented medium, then assessed for motility, acrosome morphology, and phosphorylated protein localization. The addition of calyculin A greatly enhanced cAMP-triggered protein phosphorylation at serine/threonine and tyrosine residues in the connecting piece and induction of flagellar hyperactivation. Most hyperactivated spermatozoa exhibited extremely asymmetrical bends at the middle piece, which produced intensive twisting or figure-eight movements. In the sperm head, however, cAMP-triggered dephosphorylation of serine/threonine-phosphorylated proteins and subsequent acrosome reaction were abolished by the addition of calyculin A. Based on these results, we suggest that calyculin A-sensitive protein phosphatases in the connecting piece are suppressors of cAMP-triggered events leading to hyperactivation. By contrast, similar protein phosphatases in the sperm head accelerate cAMP-triggered events leading to the acrosome reaction. These findings are consistent with the indication that calyculin A-sensitive protein phosphatases have distinct functions in the regulation of cAMP-triggered events in different regions of ejaculated bull spermatozoa.

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An Ancestral Function of Strigolactones as Symbiotic Rhizosphere Signals

Kodama

Rich

Yoda

et al. 2021

Preprint

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In flowering plants, carotenoid-derived strigolactones (SLs) have dual functions as hormones that regulate growth and development, and as rhizosphere signaling molecules that induce symbiosis with arbuscular mycorrhizal (AM) fungi. Here, we report the identification of bryosymbiol (BSB), a previously unidentified SL from the bryophyte Marchantia paleacea. BSB is also found in vascular plants, indicating that it is ancestral in land plants. BSB synthesis is enhanced at AM symbiosis permissive conditions and BSB deficient mutants are impaired in AM symbiosis. In contrast, the absence of BSB synthesis has little effect on the growth and gene expression. We show that the introduction of the SL receptor of Arabidopsis renders M. paleacea cells BSB-responsive. These results suggest that BSB is not perceived by M. paleacea cells due to the lack of cognate SL receptors. We propose that SLs originated as AM symbiosis-inducing rhizosphere signaling molecules and were later recruited as plant hormone.

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Yohei Mizuno

ESTABLISHMENT AND CHARACTERIZATION OF A NEW HUMAN TESTICULAR GERM CELL TUMOR CELL LINE (TCam-2)

An ancestral function of strigolactones as symbiotic rhizosphere signals

Major components of the KARRIKIN INSENSITIVE2-dependent signaling pathway are conserved in the liverwortMarchantia polymorpha

Distinct segment‐specific functions of calyculin A‐sensitive protein phosphatases in the regulation of cAMP‐triggered events in ejaculated bull spermatozoa

An Ancestral Function of Strigolactones as Symbiotic Rhizosphere Signals

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