Shinya Tsuchida scite author profile

Rodents are the unique species carrying duplicated angiotensin (Ang) type 1 (AT1) receptor genes, Agtr1a and Agtr1b. After separately generating Agtr1a and Agtr1b null mutant mice by gene targeting, we produced double mutant mice homozygous for both Agtr1a and Agtr1b null mutation (Agtr1a-/-; Agtr1b-/-) by mating the single gene mutants. Agtr1a-/-, Agtr1b-/- mice are characterized by normal in utero survival but decreased ex utero survival rate. After birth they are characterized by low body weight gain, marked hypotension, and abnormal kidney morphology including delayed maturity in glomerular growth, hypoplastic papilla, and renal arterial hypertrophy. These abnormal phenotypes are quantitatively similar to those found in mutant mice homozygous for the angiotensinogen gene (Agt-/-), indicating that major biological functions of endogenous Ang elucidated by the abnormal phenotypes of Agt-/- are mediated by the AT1 receptors. Infusion of Ang II, AT1 blockers, or an AT2 blocker was without effect on blood pressure in Agtr1a-/-; Agtr1b-/- mice, indicating that AT2 receptor does not exert acute depressor effects in these mice lacking AT1 receptors. Also, unlike Agt-/- mice, some Agtr1a-/-; Agtr1b-/- mice have a large ventricular septum defect, suggesting that another receptor such as AT2 is functionally activated in Agtr1a-/-, Agtr1b-/- mice.

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Atelectasis Causes Alveolar Injury in Nonatelectatic Lung Regions

Tsuchida

Engelberts²,

Peltekova³

et al. 2006

Am J Respir Crit Care Med

207

129

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These data support the notion that lung injury associated with atelectasis involves trauma to the distal airways. We provide topographic and biochemical evidence that such distal airway injury is not localized solely to atelectatic areas, but is instead generalized in both atelectatic and nonatelectatic lung regions. In contrast, alveolar injury associated with atelectasis does not occur in those areas that are atelectatic but occurs instead in remote nonatelectatic alveoli.

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Angiotensin induces the urinary peristaltic machinery during the perinatal period.

Miyazaki¹,

Tsuchida²,

Nishimura³

et al. 1998

J. Clin. Invest.

142

117

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The embryonic development of mammalian kidneys is completed during the perinatal period with a dramatic increase in urine production, as the burden of eliminating nitrogenous metabolic waste shifts from the placenta to the kidney. This urine is normally removed by peristaltic contraction of the renal pelvis, a smooth muscle structure unique to placental mammals. Mutant mice completely lacking angiotensin type 1 receptor genes do not develop a renal pelvis, resulting in the buildup of urine and progressive kidney damage. In mutants the ureteral smooth muscle layer is hypoplastic and lacks peristaltic movements. We show that angiotensin can induce the ureteral smooth muscles in organ cultures of wild-type, but not mutant, ureteral tissues and that, in wild-type mice, expression of both renal angiotensin and the receptor are transiently upregulated at the renal outlet at birth. These results reveal a new role for angiotensin in the unique cellular adaptations of the mammalian kidney to the physiological stresses of postnatal life. ( J.

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Targeting deletion of angiotensin type 1B receptor gene in the mouse

Chen

Yoshida

et al. 1997

American Journal of Physiology-Renal Physiology

109

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We null mutated the mouse angiotensin type 1B (AT1B) receptor gene (Agtr1b) by gene targeting. To identify the specific cell types carrying high Agtr1b gene transcriptional activities, the AT1B coding exon was replaced with a reporter gene, lacZ. In 6- to 8-wk-old Agtr1b -/- mice, high AT1B transcriptional activity was observed in adrenal zona glomerulosa cells and the testis, including mature and immature spermatic cells, whereas low activity was detected homogeneously in anterior pituitary cells and choroidal plexus vessel walls. A similar pattern was observed in Agtr1b +/- mice with less intensity. Microscopically, the anterior pituitary, heart, adrenal, zona glomerulosa, kidney, and the testis of Agtr1b -/- mice were intact and were indistinguishable from those of Agtr1b +/+ mice. Systemic blood pressure was comparable in Agtr1b -/- and Agtr1b +/+ mice. Moreover, plasma aldosterone level was comparable between the two mouse groups. No compensatory enhancement of AT1A mRNA was found in the kidney and adrenal gland of Agtr1b -/- mice. The observed absence of the abnormal phenotypes in Agtr1b -/- mice, which have been described for homozygous angiotensinogen null mutant mice, indicates that 1) AT1A receptors can take over the role of AT1B receptors in Agtr1b -/- mice or 2) functionally significant non-AT1, non-AT2 receptor(s) may exist for the action of angiotensin.

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Hemoglobin phase of oxygenation and deoxygenation in early brain development measured using fNIRS

Watanabe

Shitara

Aoki

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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A crucial issue in neonatal medicine is the impact of preterm birth on the developmental trajectory of the brain. Although a growing number of studies have shown alterations in the structure and function of the brain in preterm-born infants, we propose a method to detect subtle differences in neurovascular and metabolic functions in neonates and infants. Functional near-infrared spectroscopy (fNIRS) was used to obtain time-averaged phase differences between spontaneous low-frequency (less than 0.1 Hz) oscillatory changes in oxygenated hemoglobin (oxy-Hb) and those in deoxygenated hemoglobin (deoxy-Hb). This phase difference was referred to as hemoglobin phase of oxygenation and deoxygenation (hPod) in the cerebral tissue of sleeping neonates and infants. We examined hPod in term, late preterm, and early preterm infants with no evidence of clinical issues and found that all groups of infants showed developmental changes in the values of hPod from an inphase to an antiphase pattern. Comparison of hPod among the groups revealed that developmental changes in hPod in early preterm infants precede those in late preterm and term infants at term equivalent age but then, progress at a slower pace. This study suggests that hPod measured using fNIRS is sensitive to the developmental stage of the integration of circular, neurovascular, and metabolic functions in the brains of neonates and infants.irth is a drastic event for the developing brain, because this is when the oxygen supply switches from the fetal-placental circulation to an autonomous system. In addition, the extrauterine environment begins to provide the neonate with a tremendous flow of stimuli. Earlier exposure to the extrauterine environment is thought to influence the developmental trajectory of the brain. It has long been known that preterm birth affects brain development and is associated with a higher rate of neurodevelopmental impairment (1). A growing number of MRI studies have shown that preterm-born neonates and infants have brain structures with aberrant volumes, morphologies, and networks at term equivalent (2, 3) and school age (4, 5). Studies of resting-state fMRI have also shown that the functional connectivity of the cortex is different in term and preterm infants (6). However, it is a matter of controversy whether neonatal MRI of the brain can predict long-term adverse outcomes, such as minor neurological dysfunction (7,8). Given the fact that preterm birth before 37 wk of gestation accounts for more than 10% of all live births (9), we need a practical and safe method to detect the status of brain development in newborns.The development of the brain involves underlying hemodynamic and metabolic changes (10). Near-infrared spectroscopy (NIRS) has been used to measure cerebral blood concentrations of oxygenated Hb (oxy-Hb) and deoxygenated Hb (deoxy-Hb) at the bedside and estimate cerebral blood volume, oxygen saturation (SO 2 ), cerebral blood flow (CBF), and cerebral metabolic rate of oxygen (CMRO 2 ) in neonates (11,12). Previous studies in pr...

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Shinya Tsuchida

Murine double nullizygotes of the angiotensin type 1A and 1B receptor genes duplicate severe abnormal phenotypes of angiotensinogen nullizygotes.

Atelectasis Causes Alveolar Injury in Nonatelectatic Lung Regions

Angiotensin induces the urinary peristaltic machinery during the perinatal period.

Targeting deletion of angiotensin type 1B receptor gene in the mouse

Hemoglobin phase of oxygenation and deoxygenation in early brain development measured using fNIRS

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