L. W. Swanson scite author profile

The distribution of corticotropin-releasing factor (CRF)-immunoreactive cells and fibers has been examined in the brains of normal adult rats, and in the brains of animals that had been pretreated with intraventricular injections of colchicine, or had been adrenalectomized 3-60 days before perfusion. The results suggest that CRF immunoreactivity is localized in at least three functionally distinct systems. First, most of the CRF-stained fibers in the neurohemal zone of the median eminence, which presumably modulate the release of ACTH and β-endorphin from the pituitary, appear to arise in the paraventricular nucleus of the hypothalamus (PVH). About 2,000 CRF-stained cells are distributed throughout all eight parts of the PVH, although a majority (80%) of the cells are concentrated in the parvocellular division, and a smaller number (about 15%) are found in parts of the magnocellular division in which oxytocinergic cells predominate. This appears to be the only CRF-stained pathway in the brain that is affected (increased staining intensity) by adrenalectomy. Second, a series of cell groups in the basal telencephalon, hypothalamus, and brain stem that are known to play a role in the mediation of autonomic responses contain CRF-stained neurons. These areas, which are interconnected by stained fibers in the medial forebrain bundle and the periventricular system, include the central nucleus of the amygdala, substantia innominata, bed nucleus of the stria terminalis, medial and lateral preoptic areas, lateral hypothalamic area, central gray, laterodorsal tegmental nucleus, locus ceruleus, parabrachial nucleus, dorsal vagal complex, and regions containing the Al and A5 catecholamine cell groups. And third, scattered CRF-stained cells are found throughout most areas of the cerebral cortex. Most such cells are confined to layers II and III in the neocortex, and their bipolar shape suggests that they are interneurons. These cells are most common in limbic regions including prefrontal areas, the cingulate gyrus, and areas bordering the rhinal fissure. Scattered immunoreactive cells are also found in dorsal parts of the dentate gyrus and Ammon’s horn. These results suggest that the PVH plays a critical role in the modulation of ACTH and β-endorphin release from the pituitary, and that CRF-containing pathways in the brain are involved in the mediation of autonomic responses.

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Hypothalamic Integration: Organization of the Paraventricular and Supraoptic Nuclei

Swanson¹,

Sawchenko²

1983

Annu. Rev. Neurosci.

1,921

913

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Organization of projections from the medial nucleus of the amygdala: A PHAL study in the rat

Canteras

Simerly

Swanson

1995

J of Comparative Neurology

719

526

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The organization of axonal projections from the four recognized parts of the medial amygdalar nucleus (MEA) were characterized with the Phaesolus vulgaris leucoagglutinin (PHAL) method in male rats. The results indicate that the MEA consists of two major divisions, ventral and dorsal, and that the former may also consist of rostral and caudal regions. As a whole, the MEA generates centrifugal projections to several parts of the accessory and main olfactory sensory pathways, and projections to a) several parts of the intrahippocampal circuit (ventrally); b) the ventral striatum, ventral pallidum, and bed nuclei of the stria terminalis (BST) in the basal telencephaon; c) many parts of the hypothalamus; d) midline and medial parts of the thalamus; and e) the periaqueductal gray, ventral tegmental area, and midbrain raphé. The dorsal division of the MEA (the posterodorsal part) is characterized by projections to the principal nucleus of the BST, and to the anteroventral periventricular, medial, and central parts of the medial preoptic, and ventral premammillary hypothalamic nuclei. These hypothalamic nuclei project heavily to neuroendocrine and autonomic-related parts of the hypothalamic periventricular zone. The ventral division of the MEA (the anterodorsal, anteroventral, and posteroventral parts) is characterized by dense projections to the transverse and interfascicular nuclei of the BST, and to the lateral part of the medial preoptic, anterior hypothalamic, and ventromedial hypothalamic nuclei. However, dorsal regions of the ventral division provide rather dense inputs to the medial preoptic region and capsule of the ventromedial nucleus, whereas ventral regions of the ventral division preferentially innervate the anterior hypothalamic, dorsomedial, and ventral parts of the ventromedial nuclei. Functional evidence suggests that circuits associated with dorsal regions of the ventral division may deal with reproductive behavior, whereas circuits associated with ventral regions of the ventral division may deal preferentially with agonistic behavior.

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Paraventricular Nucleus:A Site for the Integration of Neuroendocrine and Autonomic Mechanisms

Swanson

Sawchenko²

1980

Neuroendocrinology

925

481

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We have summarized here recent evidence that clarifies the cellular organization and connections of the paraventricular nucleus of the hypothalamus (PVH) in the rat. The nucleus consists of a magnocellular division, with three distinct parts, and a parvocellular division with five distinct parts. Most neurons in the magnocellular division contain either oxytocin or vasopressin, and project to the posterior lobe of the pituitary gland. Separate cell populations centered in the parvocellular division give rise to projections to the median eminence, or to the brain stem and spinal cord including the intermediolateral column; some cells project both to the dorsal vagal complex and to the spinal cord. Cells with long descending projections may contain either oxytocin, vasopressin, somatostatin, or dopamine, although the biochemical specificity of most such neurons has not been determined. Noradrenergic fibers are found preferentially within those parts of the magnocellular division that are predominantly vasopressinergic. The parvocellular division is innervated by adrenergic as well as noradrenergic fibers from the brain stem, and by fibers from the dorsal vagal complex and the parabrachial nucleus. The bed nucleus of the stria terminalis and adjacent parts of the hypothalamus also innervate the PVH. The evidence indicates that subpopulations of neurons in the PVH are directly related to autonomic and neuroendocrine effector mechanisms, and suggests that the nucleus plays an important role in the regulation of visceral responses in the periphery and in the CNS itself.

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The central adrenergic system. An immunofluorescence study of the location of cell bodies and their efferent connections in the rat utilizing dopamine‐B‐hydroxylase as a marker

Swanson¹,

Hartman²

1975

J of Comparative Neurology

1,446

432

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A sensitive immunofluorescence technique was used to describe systematically the distrubution of dopamine-beta-hydroxylase (DBH)-containing cell bodies, non-terminal fiber pathways, and terminal fields in the brain of the male albino rat. DBH is the enzyme that catalyzes the conversion of dopamine to noradrenaline, and as such is useful as an anatomical marker for noradrenaline and possibly adrenaline neurons. The enzyme is not present in dopamine- or indolamine-containing neurons. Ten micron frozen sections (1-in 20 series) were prepared in the frontal, sagittal, and horizontal planes from the olfactory bulb to the upper cervical segments of the spinal cord; adjacent sections in each plane were stained for DBH and for cells (toluidine blue=azure II). An atlas consisting of 40 projection drawings of selected frontal sections illustrates the results of the investigation. DBH perikarya are confined to three groups in the pons and medulla: the well defined locus coeruleus, a more diffuse but continuous subcoeruleus group that arches through the pons and ventral medulla, and a third dorsal medullary group centered in the dorsal motor nucleus of the vagus. A single principal adrenergic fiber system distributes a great many of the axons from these neuron groups to a majority of nuclear areas in the brain. In the pons and medulla two components of the fiber system may be distinguished. A medullary branch may be followed from the posterior aspect of the subcoeruleus group dorsally and then anteriorly through the lateral tegmental field and ventral aspect of the vestibular complex to a position subjacent to the locus coeruleus, where it is joined by a subcoeruleus branch consisting of a large number of fibers coursing among cells along the length of the subcoeruleus group, and by fibers arising from the locus coeruleus. Anterior to the locus coeruleus the principal adrenergic bundle courses as a single fiber tract immediately ventrolateral to the central gray in the mesencephalon and in the zona incerta and substantia innominata in the diencephalon. At the level of the septal area separate bundles reach the cortex dorsally over the genu of the corpus calosum via the medial septal-diagonal band nuclei and the lateral septum and ventrally between the olfactory tubercle and caudate-putamen. In the medulla and pons adrenergic fibers undoubtedly course in both directions. Anterior to the most rostral pontine cell bodies, however, all fibers presumably ascend. Along the course of the bundle distinct branches emerge to innervate circumscribed terminal fields. In addition, certain regions of the brain such as the reticular formation and pontine gray receive diffuse DBH innervation derived from less clearly defined pathways. A small number of areas in the brain contain little or no detectable DBH. These include the caudate-putamen, nucleus accumbens, globus pallidus, olfactory tubercle, subthalamic nucleus, substantia nigra, pretectal area, third, fourth and sixth cranial verve nuclei, and the trapezoid body nucleus.

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L. W. Swanson

Organization of Ovine Corticotropin-Releasing Factor Immunoreactive Cells and Fibers in the Rat Brain: An Immunohistochemical Study

Hypothalamic Integration: Organization of the Paraventricular and Supraoptic Nuclei

Organization of projections from the medial nucleus of the amygdala: A PHAL study in the rat

Paraventricular Nucleus:A Site for the Integration of Neuroendocrine and Autonomic Mechanisms

The central adrenergic system. An immunofluorescence study of the location of cell bodies and their efferent connections in the rat utilizing dopamine‐B‐hydroxylase as a marker

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