In ovo toxico-teratological effects of aluminum on embryonic chick heart and vascularization

Sympathetic nerve cells enter the embryonic chick heart on the fifth day in ovo, but it is uncertain when these nerves become functional. Using pharmacological probes known to affect the embryonic circulation, sympathetic nerve function was examined at various stages of development. Exogenous norepinephrine elicited cardioacceleration in the hearts of embryos with intact extraembryonic circulation both before (stage 20-24) and after (stage 28-32) sympathetic innervation of the heart, and this acceleration could be inhibited by propranolol and practolol. In contrast, ganglionic stimulation with 1,1-dimethyl-4-phenylpiperazinium iodide (DMPP) elicited cardioacceleration only after stages 27-28 (i.e., after sympathetic innervation), producing a 25-30% increase in heart rate over the predrug levels of 148.7 +/- 1.8 beats/min. DMPP-elicited positive chronotropy was reduced by beta-receptor antagonists, hexamethonium, guanethidine (GuE), and tetrodotoxin. In preparations of the embryonic thorax in which the innervated heart was separated from brain and adrenal influences, DMPP elicited a GuE-sensitive cardioacceleration. It is concluded that during chick embryonic development, no more than a 1-day interval exists between the appearance of sympathetic nerves in the heart and the onset of neuronal function in that organ.

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Co-culture of embryonic chick heart cells and ciliary ganglia induces parasympathetic responsiveness in embryonic chick heart cells

Biochemical Journal ◽

10.1042/bj2920395 ◽

1993 ◽

Vol 292 (2) ◽

pp. 395-399 ◽

Cited By ~ 5

Author(s):

J V Barnett ◽

M Taniuchi ◽

M B Yang ◽

J B Galper

Keyword(s):

G Proteins ◽

Fold Increase ◽

Heart Cell ◽

Heart Cells ◽

Embryonic Chick ◽

In Ovo ◽

Chronotropic Response ◽

Muscarinic Stimulation ◽

Chick Heart ◽

Embryonic Chick Heart

We have developed a system for the co-culture of embryonic chick heart cells obtained from embryos at 3.5 days in ovo with ciliary ganglia from chick embryos at 7 days in vivo. After 3 days of co-culture, removal of the ciliary ganglia resulted in complete degeneration of axons within 6-8 h, leaving the post-innervated heart cell culture devoid of neurons. Embryonic chick heart cells at 3.5 days in ovo are unresponsive to muscarinic stimulation. However, following 3 days of co-culture with ciliary ganglia, the heart cells developed a negative chronotropic response to muscarinic stimulation (paired t test, P < 0.02) which persisted for at least 24 h after removal of the ciliary ganglion. The development of muscarinic responsiveness was associated with an increase in the levels of specific alpha-subunits of the guanine nucleotide binding proteins (G-proteins), with a 3-fold increase in the level of alpha 39 (39 kDa subunit) and a 2.5-fold increase in the level of alpha 41. The level of the G-protein subunit alpha s remained unchanged. Culture of embryonic chick heart cells at 3.5 days in ovo with medium conditioned by the growth of embryonic chick heart cells and ciliary ganglia had an effect on the chronotropic response to muscarinic stimulation and on alpha 39 and alpha 41 levels identical to that of co-culture. These data suggest that a soluble factor released during the co-culture of embryonic chick heart cells and ciliary ganglia is capable of inducing muscarinic responsiveness. These studies suggest that innervation of the heart may induce parasympathetic responsiveness by increasing the availability of G-proteins which couple the muscarinic receptor to a physiological response.

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