Figure 2
Figure 2. MiRNA involvement in CLL predisposition. MiRNA alterations can predispose people to CLL development. This proposed model shows structural and/or expression abnormalities of miRNAs in the germline that may represent inherited predisposing events. For simplicity, only gene deletion is shown, but all other types of loss-of-function and gain-of-function mutations described for PCGs can be involved in miRNA disruption (blue color). For CLL to develop, a second genetic event in addition to the predisposing one must occur in a somatic cell (green color). This can be a PCG alteration or a “hit” in another miRNA (presented here as amplification of expression). The consequences of these abnormalities are reflected by the levels of expression of various target mRNAs: overexpression of target oncogenes in the case of miRNA deletion and down-regulation of expression of target TSGs in the case of miRNA amplification.

MiRNA involvement in CLL predisposition. MiRNA alterations can predispose people to CLL development. This proposed model shows structural and/or expression abnormalities of miRNAs in the germline that may represent inherited predisposing events. For simplicity, only gene deletion is shown, but all other types of loss-of-function and gain-of-function mutations described for PCGs can be involved in miRNA disruption (blue color). For CLL to develop, a second genetic event in addition to the predisposing one must occur in a somatic cell (green color). This can be a PCG alteration or a “hit” in another miRNA (presented here as amplification of expression). The consequences of these abnormalities are reflected by the levels of expression of various target mRNAs: overexpression of target oncogenes in the case of miRNA deletion and down-regulation of expression of target TSGs in the case of miRNA amplification.

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