The ultrastructure of the nucleus pulposus was studied with conventional staining methods. The multinucleated cell masses seen in toluidine blue stained thick sections could be resolved into a large number of closely packed cells at the ultrastructural level. Numerous desmosomes were observed between adjacent cells; a second type of intercellular junction was identified as a gap junction after extracellular tracer treatment. The possible functions of these junctions were discussed, the notochordal cell cytoplasmic organelles include centrioles, mitochondria, rough endoplasmic reticulum, Golgi apparatus, cytofilaments, glycogen and lysosomes. Large vesicles, a characteristic component of notochordal cells contain material which from its staining reaction was judged to be proteoglycan. Large numbers of pinocytotic vesicles were seen in the vicinity of extracellular bands of electron-dense material applied to the cells surface. Degenerating cells were occasionally seen in the young nucleus pulposus but were seen more frequently with advancing age. The matrix contains metachromatic material which is seen after lead citrate and uranyl acetate staining cis branched and unbranched beaded filaments. From its staining reaction the material was considered to represent proteoglycan. Isolated collagen fibres were occasionally seen. Banded fibres consisting of alternate dark and light bands, periodicity 84 nm were found in the matrix. From their staining reaction these structures appear to consist of longitudinal protein filaments with transverse bands of fibrillar matrix proteoglycan. The possible relationship of this material to collagen was discussed. With a view to selective staining and further identification of the matrix components the theory of the critical electrolyte concentration (C.E.C.) technique was outlined. The most promising organic cations containing a heavy metal for the ultrastructural application of this technique were chelates of haematein with heavy metals. Chelate formation is accompanied by a decrease in pH and in some cases a spectral change. The characteristic absorption spectrum of indium haematein allowed the optimum molar ratio to be ascertained. Preliminary experiments of polyanions spotted on filter papers, unfixed collagen and thin sections of pancreas indicated a progressive loss of staining of sulphate, carboxyl and phosphate groups with increasing salt molarity. Unosmicated thin sections of nucleus pulposus showed loss of staining of vesicle material followed by matrix material as the salt molarity was increased; nuclear staining was largely unaffected. This staining pattern was discussed in terms of the C.E.C. theory. Although iron, lead and uranium haematein chelates also produced staining consistent with localisation of tissue polyanions each had disadvantages which did not commend their use in the C.E.C. approach to Selective staining.
| Identifer | oai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:751228 |
| Date | January 1975 |
| Creators | Lumb, Elizabeth Margaret |
| Contributors | Smith, J. W. |
| Publisher | University of St Andrews |
| Source Sets | Ethos UK |
| Detected Language | English |
| Type | Electronic Thesis or Dissertation |
| Source | http://hdl.handle.net/10023/13959 |
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