ORIGIN OF GRANULES IN POLYMORPHONUCLEAR LEUKOCYTES: Two Types Derived from Opposite Faces of the Golgi Complex in Developing Granulocytes

doi:10.1083/jcb.28.2.277

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ORIGIN OF GRANULES IN POLYMORPHONUCLEAR LEUKOCYTES : Two Types Derived from Opposite Faces of the Golgi Complex in Developing Granulocytes

Dorothy Ford Bainton ¹ and Marilyn G. Farquhar ¹

¹ From the Department of Pathology, University of California School of Medicine, San Francisco

The origin, nature, and distribution of polymorphonuclear leukocyte(PMN) granules were investigated by examining developing granulocytesfrom normal rabbit bone marrow which had been fixed in glutaraldehydeand postfixed in OsO₄. Two distinct types of granules, azurophiland specific, were distinguished on the basis of their differencesin size, density, and time and mode of origin. Both types areproduced by the Golgi complex, but they are formed at differentstages of maturation and originate from different faces of theGolgi complex. Azurophil granules are larger ( $sim$ 800 mµ) andmore dense. They are formed only during the progranulocyte stageand arise from the proximal or concave face of the Golgi complexby budding and subsequent aggregation of vacuoles with a densecore. Smaller ( $sim$ 500 mµ), less dense specific granules areformed during the myelocyte stage; they arise from the distalor convex face of the Golgi complex by pinching-off and confluenceof vesicles which have a finely granular content. Only azurophilgranules are found in progranulocytes, but in mature PMN relativelyfew (10 to 20%) azurophils are seen and most (80 to 90%) ofthe granules present are of the specific type. The results indicatethat inversion of the azurophil/specific granule ratio occursduring the myelocyte stage and is due to: (a) reduction of azurophilgranules by multiple mitoses; (b) lack of new azurophil granuleformation after the progranulocyte stage; and (c) continuingspecific granule production. The findings demonstrate the existenceof two distinct granule types in normal rabbit PMN and theirseparate origins from the Golgi complex. The implications ofthe observations are discussed in relationship to previous morphologicaland cytochemical studies on PMN granules and to such questionsas the source of primary lysosomes and the concept of polaritywithin the Golgi complex.

Submitted on July 26, 1965

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