In vitro derivation of macrophage from guinea pig bone marrow with human M-CSF.

[legionellosis]

The guinea pig has a storied history as a model in the study of infectious disease and immunology . Because of reproducibility of data and availability of various reagents , inbred mice have since supplanted the guinea pig as the animal model -of-choice in these fields . However , several clinically-significant microorganisms do not cause the same pathology in mice , or mice may not be susceptible to these infections . These demonstrate the utility of other animal models - either as the primary method to study a particular infection , or to confirm or refute findings in the mouse before translating basic science into clinical practice . The mononuclear phagocyte , or macrophage (Mφ ), plays a key role in antigen presentation and the pathogenesis of intracellular bacteria , such as Mycobacterium tuberculosis and Legionella pneumophila . Because of variable yield and difficult extraction from tissue , the preferred method of producing Mφ for in vitro studies is to expand murine bone marrow (BM ) precursors with mouse macrophage colony-stimulating factor (M-CSF ). This has not been shown in the guinea pig . Here , we report the empiric observation that human M-CSF - but not mouse M-CSF , nor human granulocyte /macrophage colony-stimulating factor - can be used to induce BM precursor differentiation into bonafide Mφ . The differentiated cells appeared as enlarged adherent cells , capable of both pinocytosis and large particle phagocytosis . Furthermore , we showed that these guinea pig BM-derived Mφ , similar to human monocyte /Mφ lines but unlike most murine BM Mφ , support growth of wild type L . pneumophila . This method may prove useful for in vitro studies of Mφ in the guinea pig , as well as in the translation of results found using mouse BM-derived Mφ towards studies in human immunology and infectious disease .