Identification of cardiovascular pathways in the sympathetic nervous system

1. Sympathetic autonomic neurons show distinct patterns of expression of a range of neurochemicals that can be detected immunohistochemically. Often, functionally homologous neurons in the autonomic nervous system express identical combinations of substances that serve as a chemical code that allows them to be identified among other autonomic neurons. 2. In the rat stellate ganglion, where many neurons express either immunoreactivity (IR) to neuropeptide Y (NPY) or the calcium-binding protein calbindin, a population of large post-ganglionic neurons found along the medial border of the stellate ganglion, around the origin of the cardiac nerves, expressed intense IR to both substances at all ages examined, from early postnatal to adult. 3. In the heart, in the first few postnatal weeks, many nerve terminals were IR for both NPY and calbindin, but, with increasing age, calbindin-IR was progressively lost from NPY-IR terminals. Nerve terminals IR for both calbindin and NPY were not seen around pulmonary blood vessels or in the trachea or the thymus. 4. Nerve terminals IR for calretinin, another calcium-binding protein, were present in dense pericellular baskets around neurons in the stellate IR for both calbindin and NPY, The terminals also contained nitric oxide synthase (NOS)-IR. 5. It is suggested that the calbindin- and NPY-IR neurons in the stellate ganglion are the post-ganglionic neurons that innervate the heart and that the nerve terminal containing calretinin and NOS-IR that surround them are the cardiac preganglionic terminals. It thus appears possible, in the rat, to identify the sympathetic cardiac pathway arising in the spinal cord and controlling the heart purely on the basis of chemical coding.