The ultrastructure of hemocytopoietic organs in the desert scorpion, Paruroctonus

• Published in: Tissue & cell Vol. 16; no. 4; pp. 577 - 588
• Main Author: Farley, Roger D.
• Format: Journal Article
• Language: English
• Published: Sidcup Elsevier Ltd 1984; Elsevier
• Subjects: animal anatomy; animal morphology; Animals; Arachnida; arthropods; Biological and medical sciences; entomology; Fundamental and applied biological sciences. Psychology; granulocyte; Hematopoiesis; Hematopoietic Stem Cells - cytology; hemocyte; hemocytopoietic organs; Invertebrates; Lymphoid Tissue - cytology; Microscopy, Electron; Morphology. Histology. Cytology; muscle; Paruroctonus; Paruroctonus mesaensis; Scorpion; Scorpions - physiology; Scorpions - ultrastructure; Systematics. Geographical distribution; Vaejovidae; granulocyte; Paruroctonus; Scorpion; hemocyte; hemocytopoietic organs; muscle; Arachnida; Scorpionides; Hematopoietic organ; Ultrastructure; Arthropoda; Granulocyte; Invertebrata
• ISSN: 0040-8166; 1532-3072
• DOI: 10.1016/0040-8166(84)90032-6

The light and electron microscopes were used to examine possible hemocytopoietic tissue in the desert scorpion, Paruroctonus mesaensis. Results agree with earlier light microscopic studies that cells are released into the blood from the two lateral lymphoid organs and the supraneural gland. The former are sacciform structures attached by their anterior ends to the diaphragm. The supraneural gland forms the thickened wall of the supraneural artery in the mesosoma from the first to the third abdominal ganglia. The lateral lymphoid glands have an acellular stroma in which are embedded granular and agranular cells. The stroma is apparently formed by specialized cells which release membranous cell fragments that become the matrix of the gland. Cells are released into the body cavity from the periphery of the two organs. The supraneural gland has a fibrous stroma in which are embedded a variety of cell types. The cells appear to be released in greatest abundance into the blood in the lumen of the gland. The gland has cells with opaque granules (0.9–1.4 μm diameter) and: agranular cells of variable shape. The most abundant cell, possibly the stem-cell for the others, is about 10 μm diameter and often has processes of variable length. In addition, muscle cells at various stages of differentiation are found at the inner margin of the gland. These cells have thick and thin myofilaments (24–32 and 5–8 nm diameter) and dense bodies which sometimes become organized into sarcomeres with Z-bands before the cells are released into the gland lumen. The function of these muscle cells is unknown, but possibly they contribute to the maintenance of blood pressure and the release of cells into the blood from the inner margin of the gland.