Joan L. Japha scite author profile

Joan L. Japha

4Publications

20Citation Statements Received

5Citation Statements Given

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Baruch College, University of Connecticut, New York University

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Calcified inclusions in the superficial pineal gland of the mongolian gerbil<i>, Meriones unguiculatu</i><i>s</i>

Japha¹,

Eder²,

Goldsmith³

1976

Cells Tissues Organs

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A histological and histochemical study of the pineal gland of neonatal, juvenile and adult gerbils is described. Calcified inclusions appear within pinealocytes in the superficial pineal about the third week of age, and the incidence of inclusions increases with age until, by the eleventh week, they are found in all animals. The inclusions contain an organic matrix composed of a carbohydrate, probably an acid mucopolysaccharide, complexed to protein. Calcification does not occur in the deep pineal. The data are interpreted to indicate that the formation of calcified inclusions is a normal process within the gerbil pineal. The similarity of the process of calcification in the gerbil and in the human pineal suggests that the gerbil may be the animal of choice for the controlled study of the phenomenon of pineal calcification.

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A histochemical study of aldehyde fuchsin‐positive material and “high‐esterase cells” in the pineal gland of the Mongolian gerbil

1977

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The pineal gland of the Mongolian gerbil consists of a superficial gland, stalk and deep pineal. The deep pineal differentiates postnatally. Histochemical studies of the superficial pineal gland indicate that it may be involved in the secretion of protein. Presumptive secretory material visualized by aldehyde fuchsin (AF) and chrome hematoxylin was observed along the course of blood vessels and among the pinealocytes. The distribution and texture of the AF-positive material was distinctive. It did not correspond to the pattern and texture of material stained with PAS, Sudan Black or acid orcein. Staining with AF was markedly reduced after incubation with trypsin, indicating that the AF-positive material is at least partially protein. The amount of stainable material increased with age. The AF-positive material was observed in what appeared to be interstitial or glial cells and processes, and in the processes of perivascular cells. Cells and fibrous processes with high non-specific esterase activity ("high-esterase cells") were observed among the pinealocytes and along the course of blood vessels. The distribution of the "high-esterase cells" and the morphology and texture of their esterase-containing processes were remarkably similar to the morphology and distribution of the material that stained with AF. It may be that the "high-esterase cells" contain AF-positive material. The "high-esterase cells" hydrolyzed both alpha-naphthyl acetate and alpha-naphthyl butyrate. The pinealocytes hydrolyzed only alpha-naphthyl acetate. The "high-esterase cells" appear to form a distinct class of cells within the superficial pineal gland. They are tentatively identified as a type of glial cell.

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Transmission in the visceral ganglion of the fresh-water pelecypod, Elliptio complanatus—I. Light, fluorescence and electron microscopy

Japha

Wachtel

1969

Comparative Biochemistry and Physiology

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Transmission in the visceral ganglion of the fresh-water pelecypod, Elliptio complanatus—II. Esterase histochemistry

Japha

Wachtel

1969

Comparative Biochemistry and Physiology

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Joan L. Japha

Calcified inclusions in the superficial pineal gland of the mongolian gerbil<i>, Meriones unguiculatu</i><i>s</i>

A histochemical study of aldehyde fuchsin‐positive material and “high‐esterase cells” in the pineal gland of the Mongolian gerbil

Transmission in the visceral ganglion of the fresh-water pelecypod, Elliptio complanatus—I. Light, fluorescence and electron microscopy

Transmission in the visceral ganglion of the fresh-water pelecypod, Elliptio complanatus—II. Esterase histochemistry

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