Histology, Basophilic Stippling

Article Author:
John Sanchez
Article Editor:
David Lynch
Updated:
7/28/2019 1:14:13 PM
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Histology, Basophilic Stippling

Introduction

Basophilic stippling is one example of several clinically significant erythrocyte inclusions identified on peripheral blood smears. The presence of basophilic stippling is attributed to aggregates of ribosomes or fragments of ribosomal RNA precipitated throughout the cytoplasm of circulating erythrocytes. This finding is associated with acquired and heritable hematologic disorders affecting erythropoiesis and erythrocyte maturation.

Issues of Concern

Basophilic stippling is a frequent manifestation of hematologic disease in the peripheral blood, and it is also observable in bone marrow aspirates. It is implicated in cases of lead poisoning but can be an indicator of various heavy metal toxicities. Alternative causes of basophilic stippling such as hemoglobinopathies, nutritional deficiencies, and myelodysplasia warrant consideration as well in the context of appropriate clinical history.

Structure

Ribosomes and fragments of ribosomal RNA/ribonuclear proteins can form aggregates in circulating reticulocytes and erythrocytes as a consequence of disease. These aggregates precipitate in the cytoplasm similar to other erythrocyte inclusions like Pappenheimer bodies and Howell-Jolly bodies, but the composition of basophilic stippling is distinctive. Further discussion of the functional, histochemical, and pathologic implications of basophilic stippling follows in subsequent sections.

Function

Immature erythrocytes require the same organelles as other human cells to function and synthesize materials necessary to proceed with maturation. Ribosomes facilitate the translation of mRNA to produce proteins utilized in numerous cellular functions and remain present in reticulocytes alongside other essential organelles, such as mitochondria, following enucleation of erythroblasts. Terminal maturation of reticulocytes into erythrocytes involves the elimination of these remaining organelles. Clearance of ribosomes is thought to occur during later phases of maturation in which reticulocytes enter circulation from the bone marrow to complete their conversion into erythrocytes. Enzymatic degradation via Ulk1 protein kinase signaling appears to be attributable to ribosome clearance; however, a detailed mechanism is not clear at this time.[1]

Incomplete or failure of ribosomal degradation leads to precipitation of ribosomes or ribosomal remnants in circulating erythrocytes, which is visible as basophilic stippling on microscopy. Aberrant terminal maturation is involved in several hematologic disorders but is of particular interest in heavy metal toxicity and anemia – especially those associated with heritable enzymopathies. For example, pyrimidine nucleotidase is a key enzyme involved in the catabolism of ribosomal and messenger RNA during terminal maturation. Deficiency or inhibition of this enzyme causes anemia with marked basophilic stippling on peripheral smears.[1][2]

Tissue Preparation

Most specimens consist of whole blood collected via the appropriate protocol for hematologic studies, typically in a lavender top tube with potassium EDTA anticoagulant. A peripheral blood smear is then made from the specimen and prepared with Wright-Giemsa stain for light microscopy. Bone marrow aspirate with Wright-Giemsa staining may also demonstrate this histologic finding.

Histochemistry and Cytochemistry

No specific histochemical markers or staining methodologies yet exist for basophilic stippling. That said, basophilic stippling can be differentiated from other erythrocyte inclusions – namely Pappenheimer bodies – by its lack of special staining. Pappenheimer bodies have a similar appearance to basophilic stippling in peripheral blood with Wright-Giemsa staining; however, the former is composed of iron aggregates rather than ribosomal material. Prussian blue stain preferentially binds iron in tissues; therefore, Pappenheimer bodies rather than basophilic stippling will be visible on a specimen treated with Prussian blue.[3]

Microscopy Light

The appearance of basophilic stippling on light microscopy of peripheral blood and bone marrow aspirates is characteristic of its namesake. Affected erythrocytes demonstrate small, basophilic (purple-blue) punctate inclusions. Unlike other erythrocyte inclusions, basophilic stippling does not show polarity and is diffusely and evenly scattered throughout the cell. The inclusions may be coarse or fine in appearance, and these different morphologies can be associated with particular disease processes as discussed later.[4]

Microscopy Electron

Electron microscopy is not routine for the examination of peripheral blood smears. However, a study from 1965 comparing supravital staining (light microscopy) and electron microscopy of peripheral blood from rodents with induced lead/phenylhydrazine toxicity or post-phlebotomy anemia noted that the structure and general appearance of stippled material in reticulocytes was consistent with ribosomes.[5] Overall, the visualization of basophilic stippling in more mature erythrocytes was subject to limitations by preparation of peripheral blood for electron microscopy; therefore, researchers extrapolated findings in reticulocytes to other affected erythrocytes.[5]

Clinical Significance

Many hematologic disorders involve disrupted erythropoiesis and erythrocyte maturation, which introduces the potential for basophilic stippling on peripheral smears. Coarse basophilic stippling is always clinically significant. Fine basophilic stippling may be seen artifactually, as well as in a variety of clinical instances mentioned below.  Classically, coarse basophilic stippling is associated with heavy metal toxicity with a predominant emphasis on lead poisoning. Lead toxicity is attributed to coarse-appearing basophilic stippling due to inhibition of pyrimidine-5'-nucleotidase, thereby preventing degradation of ribosomal RNA in circulating erythrocytes.[4] Basophilic stippling is considered a pathognomonic finding in lead poisoning in conjunction with hypochromic microcytic anemia (although normocytic anemia can be appreciated as well) and deposition of lead in the gingiva and joints.[6] 

Supporting clinical history classically entails environmental or occupational exposure to lead. Basophilic stippling can occur in cases of lead intoxication secondary to foreign bodies such as bullet fragments and retained shrapnel in active-duty military personnel.[7][8] Patients demonstrating anemia with basophilic stippling and toxic blood lead concentrations have also been connected to the use of adulterated illicit drugs (ex. opium) and contaminated herbal remedies/supplements imported from Asian countries.[4][9][6][10] Toxic levels of other heavy metals such as zinc may produce basophilic stippling as well but are considerably rare compared to lead.[11]

Patients with anemia secondary to hemoglobinopathies such as thalassemia and sickle cell disease can exhibit basophilic stippling that may be finer in appearance than observed in lead toxicity.[4][12] The presence of basophilic stippling in the context of hemoglobinopathies is likely related to increased erythrocyte hemolysis and release of immature cells into the bloodstream to compensate for relatively rapid erythrocyte turnover.[12] Moreover, pyrimidine-5'-nucleotidase (P5'N) deficiency is a rare autosomal recessive enzymopathy characterized by hemolytic anemia with significant basophilic stippling on peripheral smear. P5'N deficiency may have links to a mutation in the NT53C gene, but additional studies are needed to characterize the full scope of genetic factors related to this condition.[2]

Megaloblastic anemia due to vitamin B12/folate deficiency or chronic alcohol use disorder can present with basophilic stippling as well.[4] Furthermore, myelodysplastic syndrome (MDS) acquired from variable gene mutations over time induces faulty erythropoiesis and hematopoietic stem cell differentiation. Numerous morphological defects are present on peripheral smears from patients with MDS, and basophilic stippling is a common finding.[13]



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References

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