Your search keyword '"Goris RC"' showing total 3 results

1. Ultrastructure of the capillary pericytes and the expression of smooth muscle alpha-actin and desmin in the snake infrared sensory organs.

Author

Nakano M, Atobe Y, Goris RC, Yazama F, Ono M, Sawada H, Kadota T, Funakoshi K, and Kishida R

Subjects

Agkistrodon physiology, Animals, Fluorescent Antibody Technique, Indirect, Infrared Rays, Microscopy, Electron, Scanning, Muscle, Smooth metabolism, Pericytes metabolism, Sensory Receptor Cells metabolism, Sensory Receptor Cells ultrastructure, Actins metabolism, Agkistrodon anatomy & histology, Desmin metabolism, Muscle, Smooth innervation, Pericytes ultrastructure, Sensory Receptor Cells blood supply

Abstract

The infrared sensory membranes of pit organs of pit vipers have an extremely rich capillary vasculature that forms many vascular loops, each serving a small number of infrared nerve terminals. We clarified the ultrastructure of capillary pericytes in the pit membranes by scanning and transmission electron microscopy, and examined the immunoreactivity in their cytoplasm to two contractile proteins: smooth muscle alpha-actin (SM alpha-actin) and desmin. The capillary pericytes had two major cytoplasmic processes: thickened primary processes that radiate to embrace the endothelial tube and flattened secondary processes that are distributed widely on the endothelium. Coexpression of SM alpha-actin and desmin was observed in the pericytes of entire capillary segments, and SM alpha-actin was characterized by prominent filament bundles directed mainly at right angles to the capillary long axis. This expression pattern was different from that of capillary pericytes of the scales, where SM alpha-actin was expressed diffusely in the cytoplasm. In a series of electron microscopic sections, we often observed the pericyte processes depressing the endothelial wall. We also observed a close relationship of the pericytes with inter-endothelial cell junctions, and pericyte processes connected with the endothelial cells via gap junctions. From these findings, we surmised that capillary pericytes in the pit membrane have a close functional relationship with the endothelium, and through their contractile and relaxing activity regulate capillary bloodflow to stabilize production of infrared nerve impulses., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

2. Microvasculature of crotaline snake pit organs: possible function as a heat exchange mechanism.

Author

Amemiya F, Nakano M, Goris RC, Kadota T, Atobe Y, Funakoshi K, Hibiya K, and Kishida R

Subjects

Agkistrodon physiology, Animals, Arterioles anatomy & histology, Body Temperature Regulation physiology, Capillaries anatomy & histology, Female, Infrared Rays, Microcirculation anatomy & histology, Microcirculation physiology, Microscopy, Electron, Scanning, Photoreceptor Cells, Vertebrate physiology, Venules anatomy & histology, Agkistrodon anatomy & histology

Abstract

The infrared sensory membranes of the pit organs of pit vipers have an extremely rich capillary vasculature, which has been noted passim in the literature, but never illustrated or studied in detail. We rendered the pit vasculature visible in various ways, namely, by microinjection of India ink, by a combination of ink and succinate dehydrogenase staining, and by making resin casts for scanning electron microscope study. We also used transmission electron microscopy for identifying the types (arterioles, venules, capillaries) of blood vessels. Then we compared the pit vasculature with that of the retina and the dermis. Good visualization of the vasculature was obtained with both ink and resin injection. Arterioles, venules, and capillaries could be distinguished with all methods used. The monolayer vasculature was denser in the pit membrane than in the retina or skin. Each loop of the network enclosed a small number of infrared receptors so that all receptors were in contact with a capillary on at least one side. The forward-looking areas of the pit had a denser network than side-looking areas. Since infrared rays cause nerve impulses by raising the temperature of individual receptors, the capillary network functions not only as a supplier of energy but also as a cooling mechanism to reduce afterimages. Thus the denser network in the forward-looking areas causes these areas to be more sensitive and have better image resolution than the rest of the membrane.

Published

1999

3. Ultrastructure of the crotaline snake infrared pit receptors: SEM confirmation of TEM findings.

Author

Amemiya F, Ushiki T, Goris RC, Atobe Y, and Kusunoki T

Subjects

Animals, Microscopy, Electron, Microscopy, Electron, Scanning, Nerve Endings ultrastructure, Agkistrodon anatomy & histology, Agkistrodon physiology, Infrared Rays, Sensory Receptor Cells physiology, Sensory Receptor Cells ultrastructure

Abstract

Background: Crotaline snakes possess a pair of infrared-sensing pit organs that aid the eyes in the detection and apprehension of prey. The morphology of the receptors in the pit organs has been studied by light and transmission electron microscopy, and the ultrastructure of the receptors has been inferred from the results of this work. But this theoretical reconstruction has never been confirmed by any kind of three-dimensional imaging., Methods: We treated the receptor-containing membrane of the pit organs with potassium hydroxide to remove collagen and expose the receptors, which we then viewed by scanning electron microscopy., Results: We were able to obtain three-dimensional views of all structures previously reported to exist within the receptor-containing membrane: terminal nerve masses formed from free nerve endings, supporting Schwann cells within the nerve masses, unmyelinated and myelinated nerve fibers, a capillary bed, and vacuole cells., Conclusions: By providing the first three-dimensional views of the infrared receptors, we have confirmed that previous theoretical reconstructions of the receptors were substantially correct and have provided new evidence of the spatial arrangement of the receptors in a monolayer array.

Published

1996