David C. Pfeiffer scite author profile

In this paper, we review the structure and function of a unique type of actin-related intercellular adhesion junctions in the testis. Based on their ultrastructure, the junctions are divided into five distinct domains. The currently identified molecular components of each domain are summarized. In addition, the architecture of the mammalian system is compared with that of non-mammalian vertebrates. Functionally, the junctions are related to the turnover of adhesion between Sertoli cells, to the attachment of spermatids to the seminiferous epithelium, and to sperm release. They also are part of the mechanism by which spermatids are moved through the epithelium. Evidence consistent with adhesion and motility related functions is discussed. Control, both of junction turnover and of microtubule-based transport, is identified as an important avenue for future research.

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Ectoplasmic (“Junctional”) Specializations in Mammalian Sertoli Cells: Influence on Spermatogenic Cells^a

Vogl

Pfeiffer

Redenbach

1991

Annals of the New York Academy of Sciences

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Immunofluorescence localization of vinculin in ectoplasmic (“junctional”) specializations of rat sertoli cells

et al. 1990

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We have investigated, using indirect immunofluorescence techniques, the possibility that vinculin is a component of Sertoli cell ectoplasmic specializations. Affinity-purified polyclonal antibodies produced against human platelet vinculin were used to probe fixed frozen sections of rat testis. Specific fluorescence occurs in Sertoli cell regions adjacent to spermatids and to basally situated junctional complexes, sites at which ectoplasmic specializations are known to occur. Staining also occurs in Sertoli cell regions associated with tubulobulbar complexes. The antibody also labels focal contacts in cultured human dermal fibroblasts, apical junctional sites of rat epididymal epithelium, and dense plaques of smooth muscle. Our results are consistent with the prediction that vinculin is likely a component of ectoplasmic specializations and are also consistent with the hypothesis that these structures are a form of actin-associated adhesion complex.

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Morphology and Histology of the Atlantic Bottlenose Dolphin (Tursiops truncatus) Adrenal Gland with Emphasis on the Medulla

Clark

Pfeiffer

Cowan

2005

Anat Histol Embryol

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SummaryThis study provides the first detailed description of the Atlantic bottlenose dolphin (Tursiops truncatus) adrenal gland with emphasis on the medulla. Thirty-one dolphins of varying age and sex were used in this study. No statistical differences were found between the right and left gland mass, however, the left was typically greater. Mean mass for the right and left adrenal glands were 4.99 ± 0.513 and 5.36 ± 0.558 g, respectively. No statistical differences were found between average gland mass and sexual maturity or sex. The average cortex/medulla ratio was 1.22 ± 0.060 meaning approximately 48% is cortex, 41% is medulla, and 11% was categorized as other (i.e. blood vessels, connective tissue, etc.). The cortex contained pseudolobules and the typical zonation. A medullary band, consisting of highly basophilic staining cells was found at the periphery of the medulla. Projections of the medulla to the gland capsule were noted. Immunolabelling with polyclonal antibodies against the enzymes dopamine b hydroxylase and phenylethanolamine N-methyl transferase indicated that noradrenaline producing cells are found throughout the medulla including the medullary band while adrenaline producing cells are only found within the medullary band. Transmission electron microscopy confirmed the presence of two distinct cell populations within the medullary band and a single cell population throughout the medulla.

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David C. Pfeiffer

Unique and Multifunctional Adhesion Junctions in the Testis. Ectoplasmic Specializations.

Ectoplasmic (“Junctional”) Specializations in Mammalian Sertoli Cells: Influence on Spermatogenic Cells^a

Immunofluorescence localization of vinculin in ectoplasmic (“junctional”) specializations of rat sertoli cells

Morphology and Histology of the Atlantic Bottlenose Dolphin (Tursiops truncatus) Adrenal Gland with Emphasis on the Medulla

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David C. Pfeiffer

Unique and Multifunctional Adhesion Junctions in the Testis. Ectoplasmic Specializations.

Ectoplasmic (“Junctional”) Specializations in Mammalian Sertoli Cells: Influence on Spermatogenic Cellsa

Immunofluorescence localization of vinculin in ectoplasmic (“junctional”) specializations of rat sertoli cells

Morphology and Histology of the Atlantic Bottlenose Dolphin (Tursiops truncatus) Adrenal Gland with Emphasis on the Medulla

Contact Info

Product

Resources

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Ectoplasmic (“Junctional”) Specializations in Mammalian Sertoli Cells: Influence on Spermatogenic Cells^a