Blood Cell Identification by Staining and Morphology

Blood Cell Identification by Staining and Morphology Go back

White blood cells comprise a diverse collection of leukocytes mediating a variety of immunologically related functions. Individual cell types can be microscopically distinguished by gross morphology and by staining with cytochemical dyes. For example, Wright-Giemsa stain, with its combination of acidic and basic dyes, will differentially stain the granules, cytoplasm, and nuclei of various blood cell types as illustrated by some of the images linked to this University of New England Faculty Histology Lab VII Cardiovascular System webpage.

Differential staining morphology of different blood cell types
Red Blood Cells (RBCs)	Monocytes
cytoplasm = orange-pink to rose	cytoplasm = pale gray-blue nucleus = deep bluish-purple
Lymphocytes	Neutrophils (PMNs, Polys)
cytoplasm = light blue nucleus = deep blue-violet	granules = purple-to-lilac cytoplasm = pale pink nucleus = deep blue-violet
Eosinophils:	Basophils
granules = orange to pink	granules = deep blue to violet
Platelets
central granules = red-purple surrounded by light blue

Morphologically, white blood cells are classified into two broad categories -- granulocytes and mononuclear cells.

Granulocytes typically have multi-lobed nuclei (often shaped like sausages on a string) and a granular cytoplasm. There are three basic types of granulocyte:

Granulocytes,
- Neutrophils, also referred to as polymorphonuclear cells, or more simply PMNs
- Eosinophils; and
- Basophils, the blood-borne precursors of mast cells.

Mononuclear cells, which typically have rounded or kidney-shaped nuclei and often little cytoplasm, are comprised of two basic cell types:

Monocytes, the blood-borne precursors of macrophages and
Lymphocytes, which are morphologically classified as small and large, comprise a heterogeneous mixture of functionally distinct cell types, including B lymphocytes, the precursors of antibody-producing plasma cells, several types of T lymphocytes, and natural killer (NK) lymphocytes.

In addition to their distinctive cytochemical staining characteristics, blood cells can be distinguished on a gross level by their average size and granularity as measured by flow cytometry. With a flow cytometer, the optical effects of passing a single cell through a laser light beam can be measured in terms of light scattered by the cell in two directions -- parallel to the beam ("forward scattering" or FSC) and perpendicular to the beam ("side scattering" or SSC). Greater FSC correlates with larger cell size while greater SSC correlates with more granularity in the cytoplasm and nucleus of a cell. A two-dimensional plot of FSC versus SSC for human blood cells, reveals that different cell types exhibit distinct average ranges of size and granularity. Thus, flow cytometry can be used to analyze and even physically isolate different blood cell populations.

With a modified flow cytometer designed to detect fluorescent light stimulated by the laser beam, i.e., a fluorescence-activated cell sorter (FACS), even finer distinctions between different cell populations can be made if they have been treated with fluorescently tagged monoclonal antibodies directed against specific cell surface molecules, generically referred to as cluster of differentiation (CD) antigens.

Cells & Organs of the Immune System

Cluster of Differentiation (CD) Antigens

References:

J. D. Bauer, Clinical Laboratory Methods (9^th ed.) Mosby, St. Louis, p. 111 (1982)