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Immunohistochemical localization of transforming growth factor-α and epidermal growth factor-receptor in the mesonephros and metanephros of the chicken (1993)

Díaz-Ruiz, C. ; Pérez-Tomás, R. ; Culleré, X. ; [et al.]

Springer

Cell & tissue research 271 (1993), S. 3-8

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ISSN: 1432-0878

Keywords: Transforming growth factor-alpha ; Epidermal growth factor-receptor ; Mesonephros ; Metanephros ; Domestic fowl

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Transforming growth factor-alpha (TGF-α) is a polypeptide related to epidermal growth factor (EGF). Both bind to EGF-receptor (EGF-R) to carry out their function in a variety of tissues and cell lines. Several studies have shown their presence in mammalian kidney, however, nothing has to date been stated concerning their existence in avian kidney. Expression of TGF-α and EGF-R is reported here for the first time during the development of the chicken kidney. Using immunohistochemical techniques, we identified a TGF-α (but not EGF) in mesonephric distal tubule cells from day 8 to day 20 of embryonic development and in metanephric distal tubule cells from day 14 of embryonic development to the adult. The histochemical characteristics of these cells and their histological localization suggest that they may be the “principal cells” of the distal tubules. Similarly, EGF-R was found in mesonephric proximal tubule cells from day 7 to day 18 of embryonic development and in metanephric proximal tubule cells from day 13 of embryonic development up to adult stages. The coexistence of both TGF-α and EGF-R from the onset of development of mesonephros and metanephros supports their possible role in mechanisms of proliferation and differentiation of the cells of these organs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00297536

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Hormonal regulation of potassium shifts during graded exhausting exercise (1991)

Laso, F. J. ; González-Buitrago, J. M. ; Martín Ruiz, C. ; [et al.]

Springer

European journal of applied physiology 62 (1991), S. 292-296

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ISSN: 1439-6327

Keywords: Potassium ; Catecholamines ; Cyclic AMP ; Exercise

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Serum potassium, aldosterone and insulin, and plasma adrenaline, noradrenaline and cyclic adenosine 3′:5′-monophosphate (cAMP) concentrations were measured during graded exhausting exercise and during the following 30 min recovery period in six untrained young men. During exercise there was an increase in concentration of serum potassium (4.74 mmol·1−1, SEM 0.12 at the end of exercise vs 3.80 mmol·1−1, SEM 0.05 basal,P〈0.001), plasma adrenaline (2.14 nmol·1−1, SEM 0.05 at the end of exercise vs 0.30 nmol·1−1, SEM 0.02 basal,P〈0.001), plasma noradrenaline (1.10 nmol·1−1, SEM 0.64 at the end of exercise vs 1.50 nmol·1−1, SEM 0.05 basal,P〈 0.001), serum aldosterone (0.92 nmol·1−1, SEM 0.14 at the end of exercise vs 0.36 nmol·1−1, SEM 0.05 basal,P〈0.01), and plasma cAMP (35.4 nmol·1−1, SEM 2.3 at the end of exercise vs 21.4 nmol·1−1, SEM 4.5 basal,P〈0.05). While concentrations of serum potassium, plasma adrenaline and cAMP returned to their basal levels immediately after exercise, those of plasma noradrenaline and serum aldosterone remained elevated 30 min later (1.90 nmol·1−1, SEM 0.01,P〈0.01; and 0.85 nmol·1−1, SEM 0.12,P〈0.01, respectively). Serum insulin concentration did not change during exercise (6.47 mlU·1−1, SEM 0.58 at the end of exercise vs 5.47 mlU·1−1, SEM 0.41 basal, NS) but increased significantly (P〈0.02) at the end of the recovery period (7.12 mlU·1−1, SEM 0.65). Serum potassium increases with exhausting exercise appeared to be caused not only by its release from contracting muscles but also by an α-adrenergic stimulation produced by adrenaline and noradrenaline. On the other hand, the increased levels of plasma noradrenaline maintained during the recovery period may have served to avoid excessive hypokalaemia through the stimulation of muscle α-receptors. Thus, catecholamines may play an important role in the regulation of serum potassium concentrations during and after exercise. Any disturbance of these adrenergic effects may lead either to an excessive increase or to a decrease of kalaemia, with the consequent risk of arrhythmias linked to exercise.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00571555

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