THE MYOCARDIAL INTERSTITIUM: ITS STRUCTURE AND ITS ROLE IN IONIC EXCHANGE

The structures present in the rabbit myocardial interstitium have been defined and quantified. Stereological methods were used for the quantification. The extracellular space contains abundant ground substance (23%) distributed in a homogeneous mat throughout the space and within the T tubules. The remainder of the space contains 59% blood vessels, 6% "empty" space, 4.0% collagen, and 7.0% connective tissue cells. The arrangement of the interstitium in relation to the myocardial cells and the capillaries has been described. In addition, the extracellular space was measured using extracellular markers: 14C sucrose (neutrally charged), 35SO4 (negatively charged), and 140La (positively charged). The La+++ space differed markedly from the other two (P << 0.001), indicating extensive binding of La+++ to polyanionic extracellular structures. Cetylpyridinium chloride, a cationic detergent specific for polysaccharides, caused precipitation of the ground substance and marked decrease in the La+++ space. This study indicates the considerable structural complexity of the interstitium. The effects of an abundant negatively charged protein-polysaccharide within the interstitium has been discussed in terms of cation exchange in arterially perfused tissue.

[1]  B. Preston,et al.  Model connective tissue system: The effect of proteoglycan on the diffusional behavior of small non‐electrolytes and microions , 1972, Biopolymers.

[2]  F. Chayes,et al.  DETERMINATION OF RELATIVE VOLUME BY SECTIONAL ANALYSIS. , 1965, Laboratory investigation; a journal of technical methods and pathology.

[3]  W. Lynn,et al.  Role of anions in mitochondrial swelling and contraction , 1965 .

[4]  S. Frenk,et al.  STAINING PROPERTIES OF LANTHANUM ON CELL MEMBRANES. , 1965, Proceedings of the National Academy of Sciences of the United States of America.

[5]  G. Langer Sodium Exchange in Dog Ventricular Muscle , 1967, The Journal of general physiology.

[6]  E. Weibel,et al.  PRACTICAL STEREOLOGICAL METHODS FOR MORPHOMETRIC CYTOLOGY , 1966, The Journal of cell biology.

[7]  M. Schubert INTERCELLULAR MACROMOLECULES CONTAINING POLYSACCHARIDES. , 1964, Biophysical journal.

[8]  L. Leak Frozen-fractured images of blood capillaries in heart tissue. , 1971, Journal of ultrastructure research.

[9]  N. Sperelakis,et al.  An orderly lattice of axial tubules which interconnect adjacent transverse tubules in guinea-pig ventricular myocardium. , 1971, Journal of molecular and cellular cardiology.

[10]  J. Scott The precipitation of polyanions by long-chain aliphatic ammonium salts. 6. The affinity of substituted ammonium cations for the anionic groups of some biological polymers. , 1962, The Biochemical journal.

[11]  G. Langer,et al.  ULTRASTRUCTURAL ALTERATIONS PRODUCED IN MAMMALIAN MYOCARDIUM BY VARIATION IN PERFUSATE IONIC COMPOSITION , 1968, The Journal of cell biology.

[12]  E. Page Distribution of Ions and Water between Tissue Compartments in the Perfused Left Ventricle of the Rat Heart , 1968, Circulation research.

[13]  G. Langer Sodium Exchange in Dog Ventricular Muscle , 1967, The Journal of General Physiology.

[14]  D. Pease,et al.  The tridimensional ultrastructure of native collagenous fibrils, cytochemical evidence for a carbohydrate matrix. , 1971, Journal of Ultrastructure Research.

[15]  H. S. Bennett MORPHOLOGICAL ASPECTS OF EXTRACELLULAR POLYSACCHARIDES , 1963 .

[16]  G. Langer,et al.  Specific Uncoupling of Excitation and Contraction in Mammalian Cardiac Tissue by Lanthanum , 1970, The Journal of general physiology.

[17]  D. Fawcett,et al.  THE ULTRASTRUCTURE OF THE CAT MYOCARDIUM , 1969, The Journal of cell biology.

[18]  S. M. Shea LANTHANUM STAINING OF THE SURFACE COAT OF CELLS , 1971, The Journal of cell biology.

[19]  G. Langer,et al.  LANTHANUM IN HEART CELL CULTURE , 1972, The Journal of cell biology.

[20]  D. Fawcett,et al.  THE ULTRASTRUCTURE OF THE CAT MYOCARDIUM , 1969, The Journal of cell biology.

[21]  G. Langer,et al.  Calcium Flux in the Mammalian Ventricular Myocardium , 1963, The Journal of general physiology.

[22]  G. Langer,et al.  Kinetic localization of contractile calcium in rabbit myocardium. , 1971, American Journal of Physiology.

[23]  L. Leak Fractured surfaces of myocardial cells. , 1970, Journal of ultrastructure research.

[24]  A. Katchalsky POLYELECTROLYTES AND THEIR BIOLOGICAL INTERACTIONS. , 1964, Biophysical journal.

[25]  D. Rayns,et al.  Ruthenium red-positive filaments interconnecting collagen fibrils. , 1973, Journal of ultrastructure research.

[26]  G. Langer Heart: excitation-contraction coupling. , 1973, Annual review of physiology.

[27]  H Elias,et al.  Stereology: applications to biomedicalresearch. , 1971, Physiological reviews.

[28]  J. Scott The precipitation of polyanions by long-chain aliphatic ammonium salts. 5. The influence on precipitation of changes in the amine structure. , 1961, The Biochemical journal.

[29]  R. Ross,et al.  THE ELASTIC FIBER A REVIEW , 1973 .

[30]  S. Rapoport A Fixed Charge Model of the Transverse Tubular System of Frog Sartorius , 1969, The Journal of general physiology.

[31]  J. A. Johnson,et al.  Chemical and histological space determinations in rabbit heart. , 1962, The American journal of physiology.

[32]  G. Cook GLYCOPROTEINS IN MEMBRANES , 1968, Biological reviews of the Cambridge Philosophical Society.

[33]  E. Weibel Stereological principles for morphometry in electron microscopic cytology. , 1969, International review of cytology.