Abstract
Previous studies have identified patients with susceptibility to bacterial infection associated with lactoferrin deficiency in dysmorphic neutrophils containing abnormal or no secondary granules and abnormal nuclear segmentation. We have investigated the subcellular distribution of vicinal glycol-containing complex carbohydrates in marrow and blood myeloid cells of such a patient using the periodic acid-thiocarbohydrazide-silver proteinate (PA-TCH-SP) staining method and have examined the response of these neutrophils to the degranulating agents N-formylmethionyl-leucyl-phenylalanine (FMLP) and phorbol myristate acetate (PMA). As in normal specimens, immature primary granules were strongly PA-TCH-SP reactive; however, unlike normal specimens, masking of PA-TCH-SP reactivity did not occur in mature primary granules. Endoplasmic reticulum demonstrated moderately strong PA-TCH-SP staining, in contrast to absent staining of this organelle in normal promyelocytes and consistent with abnormal primary granule genesis. Small abnormal elongated granules (0.1–0.2 micron in diameter) were identified at the myelocyte state of development and were the predominant granule type in late neutrophils. These granules were identified as secondary granules on the basis of their PA-TCH-SP positivity and were differentiated from primary and tertiary granules on the basis of a lack of peroxidase, acid phosphatase, and sulfate staining. When the neutrophils were exposed to PMA, cell aggregation occurred, and the abnormal granules degranulated in a manner similar to the degranulation observed with normal secondary granules. Although PA- TCH-SP staining of the plasma membrane appeared normal, a decrease in FMLP receptors was demonstrated. Thus, a defect(s) is present in complex carbohydrate distribution and staining that involves primary and secondary granules and possibly the plasmalemma of neutrophils from this patient. This results in abnormal packaging of primary granules and synthesis of normal numbers of secondary granules that are qualitatively and morphologically abnormal, but can be recruited to degranulate with PMA.
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