K. Davis scite author profile

K. Davis

3Publications

34Citation Statements Received

79Citation Statements Given

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University of Pittsburgh

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Gap junction proteins and cell-cell communication in the three functional zones of the adrenal gland

Davis

Prentice

Murray

2002

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Mouse and monkey adrenal glands were used to study the relationships between gap junction protein expression, intercellular communication and adrenal zonation. Dye communication patterns were determined by incubating freshly excised and hemisected adrenal glands in Lucifer yellow, a gap junction permeable fluorescent dye. Immunohistochemical techniques were used to localize adrenal gap junction proteins. The combination of these two techniques permitted the correlation of gap junction proteins with dye transfer and hormone responses in specialized regions of the adrenal cortex. Lucifer yellow dye communication was most pronounced in the inner glucocorticoid/androgen-producing regions (zona fasciculata/zona reticularis), but was virtually absent in the outer mainly mineralocorticoid-producing region (zona glomerulosa). This pattern of dye communication was coincident with immunohistochemical localization of the gap junction protein, 1 Cx43. The variations in communication and 1 Cx43 expression within the adrenal cortex are thought to be relevant to normal physiological regulation of the adrenal gland.

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Hypophysectomy Results in a Loss of Connexin Gap Junction Protein from the Adrenal Cortex

et al. 2000

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To test the hypothesis that gap junctions are dependent on the tropic state of the adrenal gland, the effect of hypophysectomy on connexin 43 (alpha1-Cx43) gap junction protein occurrence and distribution was examined in mice. Gap junction protein occurrence was assessed with immunohistochemical techniques. In the adrenal gland from intact animals, alpha1-Cx43 gap junction protein was detected in the zonae fasciculata(ZF) and reticularis (ZR) while only a few alpha1-Cx43 gap junction plaques were found connecting zona glomerulosa(ZG) cells. Hypophysectomy led to a profound atrophy of the cortex which was more marked in the inner zones (zonae fasciculata and reticularis) than in the zona glomerulosa. There was a time dependent loss of alpha1-Cx43 gap junction protein in the adrenal cortex after hypophysectomy. At 33 day following hypophysectomy there was a two fold decrease in gap junctions in the zona fasciculata while the average gap junction plaque size was not different than the size seen in control animal adrenal glands.. ACTH (1U/gm body weight) treatment in hypophysectomized animals increased the number of gap junction plaques in the zona fasciculata. Hypophysectomy led to diminished alpha1-Cx43 gap junction expression in the zona fasciculata which could be restored by ACTH treatment. Because altering the tropic state of the adrenal glands via hypophysectomy leads to a reduction in gap junction number, it can be suggested that control of gap junction expression in the adrenal gland is hormone dependent and linked to adrenal gland function.

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α₁Connexin 43 Gap Junctions Are Decreased in Human Adrenocortical Tumors¹

Murray

Davis

Fishman

et al. 2000

The Journal of Clinical Endocrinology & Metabolism

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Gap junctional communication disorders have been implicated in the etiology of benign and malignant tumors. Understanding the type, distribution, and frequency of gap junctions in adrenal disorders should provide insight into the role of gap junctions in adrenal carcinogenesis as well as information that may be useful in developing improved diagnosis and treatment of adrenal diseases. Using immunocytochemical techniques, we have characterized and compared alpha1 connexins 43 gap junction protein levels in normal adrenal glands to those in benign and malignant adrenocortical human tumors. In addition, gap junction protein levels were studied in a human adrenal cancer cell line (H295). In both normal and neoplastic adrenal tissues, only alpha1 connexin 43 could be detected, whereas beta1 connexin 32 and beta2 connexin 26 were not found. In the normal adrenal gland, the zona fasciculata was demonstrated to have the highest number of gap junctions per cell (mean +/- SEM, 13.78 +/- 1.93). In contrast, in benign adrenocortical adenomas, the number of gap junctions per cell compared to that detected in normal adrenal glands was significantly reduced (mean +/- SEM, 4.6 +/- 1.17; P < or = 0.05), and the lowest number was found in malignant adrenocortical tumors (1.42 +/- 0.58; P < or = 0.05). Similarly, there were few or no alpha1 connexin 43 gap junctions in the H295 population. There was a progressive decrease in gap junction plaques in adrenocortical cancer cell populations compared to those in normal cell populations. Therefore, analysis of gap junction protein may be helpful for the differential diagnosis of benign and malignant adrenal tumors. The induction of gap junctions in malignant cells may provide a novel therapeutic strategy for adrenal cancer.

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K. Davis

Gap junction proteins and cell-cell communication in the three functional zones of the adrenal gland

Hypophysectomy Results in a Loss of Connexin Gap Junction Protein from the Adrenal Cortex

α₁Connexin 43 Gap Junctions Are Decreased in Human Adrenocortical Tumors¹

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K. Davis

Gap junction proteins and cell-cell communication in the three functional zones of the adrenal gland

Hypophysectomy Results in a Loss of Connexin Gap Junction Protein from the Adrenal Cortex

α1Connexin 43 Gap Junctions Are Decreased in Human Adrenocortical Tumors1

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α₁Connexin 43 Gap Junctions Are Decreased in Human Adrenocortical Tumors¹