Chihiro Tamura scite author profile

Kisspeptin, encoded by the Kiss1 gene, has attracted attention as a key candidate neuropeptide in controlling puberty and reproduction via regulation of gonadotrophin-releasing hormone (GnRH) secretion in mammals. Pioneer studies with Kiss1 or its cognate receptor Gpr54 knockout (KO) mice showed the indispensable role of kisspeptin-GPR54 signalling in the control of animal reproduction, although detailed analyses of gonadotrophin secretion, especially pulsatile and surge-mode of luteinising hormone (LH) secretion, were limited. Thus, in the present study, we have generated Kiss1 KO rats aiming to evaluate a key role of kisspeptin in governing reproduction via pulse and surge modes of GnRH/LH secretion. Kiss1 KO male and female rats showed a complete suppression of pulsatile LH secretion, which is responsible for folliculogenesis and spermatogenesis, and an absence of puberty and atrophic gonads. Kiss1 KO female rats showed no spontaneous LH/follicle-stimulating hormone surge and an oestrogen-induced LH surge, suggesting that the GnRH surge generation system, which is responsible for ovulation, does not function without kisspeptin. Furthermore, challenge of major stimulatory neurotransmitters, such as monosodium glutamate, NMDA and norepinephrine, failed to stimulate LH secretion in Kiss1 KO rats, albeit they stimulated LH release in wild-type controls. Taken together, the results of the present study confirm that kisspeptin plays an indispensable role in generating two modes (pulse and surge) of GnRH/gonadotrophin secretion to regulate puberty onset and normal reproductive performance. In addition, the present study suggests that kisspeptin neurones play a critical role as a hub integrating major stimulatory neural inputs to GnRH neurones, using newly established Kiss1 KO rats, which serve as a useful model for detailed analysis of hormonal profiles.

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Identification of Rat Rosa26 Locus Enables Generation of Knock-In Rat Lines Ubiquitously Expressing tdTomato

Kobayashi

Kato-Itoh

Yamaguchi

et al. 2012

Stem Cells and Development

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Recent discovery of a method for derivation and culture of germline-competent rat pluripotent stem cells (PSCs) enables generation of transgenic rats or knock-out rats via genetic modification of such PSCs. This opens the way to use rats, as is routine in mice, for analyses of gene functions or physiological features. In mouse or human, one widely used technique to express a gene of interest stably and ubiquitously is to insert that gene into the Rosa26 locus via gene targeting of PSCs. Rosa26 knock-in mice conditionally expressing a reporter or a toxin gene have contributed to tracing or ablation of specific cell lineages. We successfully identified a rat orthologue of the mouse Rosa26 locus. Insertion of tdTomato, a variant of red fluorescent protein, into the Rosa26 locus of PSCs of various rat strains allows ubiquitous expression of tdTomato. Through germline transmission of one Rosa26-tdTomato knock-in embryonic stem cell line, we also obtained tdTomato knock-in rats. These expressed tdTomato ubiquitously throughout their bodies, which indicates that the rat Rosa26 locus conserves functions of its orthologues in mouse and human. The new tools described here (targeting vectors, knock-in PSCs, and rats) should be useful for a variety of research using rats.

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Preparation and crystal structures of (1,1'-ruthenocenedithiolato-S,S',Ru)(triphenylphosphine)nickel(II) and [1,1'-metallocenedioxalato-O,O',Fe(or Ru)](triphenylphosphine)palladium(II): the metal (iron or ruthenium)-metal (palladium or nickel) dative bond

Akabori¹,

Kumagai²,

Shirahige³

et al. 1987

Organometallics

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Chihiro Tamura

Tetrodotoxin. VII. On the Structures of Tetrodotoxin and its Derivatives

Lack of Pulse and Surge Modes and Glutamatergic Stimulation of Luteinising Hormone Release in Kiss1 Knockout Rats

Identification of Rat Rosa26 Locus Enables Generation of Knock-In Rat Lines Ubiquitously Expressing tdTomato

Preparation and crystal structures of (1,1'-ruthenocenedithiolato-S,S',Ru)(triphenylphosphine)nickel(II) and [1,1'-metallocenedioxalato-O,O',Fe(or Ru)](triphenylphosphine)palladium(II): the metal (iron or ruthenium)-metal (palladium or nickel) dative bond

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