Figure 6.
Lysosome abundance and inheritance predict CD33 upregulation. (A) Experimental design. (B) CD49fHSC real-time differentiation landscapes by Uniform Manifold Approximation and Projection (UMAP). Localization of CD49fHSCs and offspring until generation 3 in landscapes, and CD201, LysoBrite, CD49c, and CD33 levels before divisions. n = 4 independent experiments, 1994 cells analyzed. (C,D) Identification of high-dimensional cell states (= clusters) in real-time differentiation landscape. Frequency of cell states in different cell generations. (E) Average frequency of cell fates (= clusters, colors as in panel C) in offspring generations of LysoLow, LysoMid, and LysoHigh CD49fHSCs. LysoLow CD49fHSC offspring more frequently acquire clusters with higher levels of CD33 than LysoHigh offspring. Two-way ANOVA, Sidak multiple comparison corrected. n = 3 independent experiments mean ± SEM; 1994 cells analyzed. (F) Quantification of CD33 levels (left) and LysoBriteNIR (right) before division in generation 3 offspring of LysoLow, LysoMid, and LysoHigh CD49fHSCs. CD33 levels higher in LysoLow offspring. Box-plot elements: center line, median; box limits, upper and lower quartiles; Tukey’s 1.5× interquartile range; points, outlier. Two-tailed Mann-Whitney test. (G) LysoBrite levels inherited by CD49fHSC daughter cells after division and absolute difference in LysoBrite levels between sister cells. LysoLow and LysoHigh daughters can distribute lysosomes symmetrically (quadrants 1 and 2), whereas LysoHigh cells show strongest asymmetric inheritance of absolute LysoBrite levels (quadrant 4). A total of 139, 55, and 33 CD49fHSC divisions in quadrants 1, 2, and 4, respectively. (H) CD33 levels before division in generation 3 offspring after a-/symmetric LysoBrite inheritance in LysoLow and LysoHigh CD49fHSCs as depicted in panel G. Symmetric LysoBrite inheritance of LysoLow and LysoHigh CD49fHSCs gives rise to symmetrically high and low CD33 expression in generation 3 offspring, respectively. CD33 levels in offspring of LysoLow daughters is higher than LysoHigh daughters after asymmetric LysoBrite inheritance. n = 3 independent experiments. Mean ± SEM. Two-tailed paired t test. (I) Average frequency of cell fates (= clusters, colors as in panel C) in offspring (generation 3) after a-/symmetric LysoBrite inheritance in LysoLow and LysoHigh CD49fHSC as depicted in panel G. Sister offspring clusters are comparable after symmetric inheritance, but differ after asymmetric inheritance. Asymmetric LysoLow sisters more frequently acquire fates (clusters) with higher levels of CD33 than their LysoHigh sisters. χ2 test, Sidak multiple comparison corrected. n = 3 independent experiments, mean ± SEM; 1994 cells analyzed.

Lysosome abundance and inheritance predict CD33 upregulation. (A) Experimental design. (B) CD49fHSC real-time differentiation landscapes by Uniform Manifold Approximation and Projection (UMAP). Localization of CD49fHSCs and offspring until generation 3 in landscapes, and CD201, LysoBrite, CD49c, and CD33 levels before divisions. n = 4 independent experiments, 1994 cells analyzed. (C,D) Identification of high-dimensional cell states (= clusters) in real-time differentiation landscape. Frequency of cell states in different cell generations. (E) Average frequency of cell fates (= clusters, colors as in panel C) in offspring generations of LysoLow, LysoMid, and LysoHigh CD49fHSCs. LysoLow CD49fHSC offspring more frequently acquire clusters with higher levels of CD33 than LysoHigh offspring. Two-way ANOVA, Sidak multiple comparison corrected. n = 3 independent experiments mean ± SEM; 1994 cells analyzed. (F) Quantification of CD33 levels (left) and LysoBriteNIR (right) before division in generation 3 offspring of LysoLow, LysoMid, and LysoHigh CD49fHSCs. CD33 levels higher in LysoLow offspring. Box-plot elements: center line, median; box limits, upper and lower quartiles; Tukey’s 1.5× interquartile range; points, outlier. Two-tailed Mann-Whitney test. (G) LysoBrite levels inherited by CD49fHSC daughter cells after division and absolute difference in LysoBrite levels between sister cells. LysoLow and LysoHigh daughters can distribute lysosomes symmetrically (quadrants 1 and 2), whereas LysoHigh cells show strongest asymmetric inheritance of absolute LysoBrite levels (quadrant 4). A total of 139, 55, and 33 CD49fHSC divisions in quadrants 1, 2, and 4, respectively. (H) CD33 levels before division in generation 3 offspring after a-/symmetric LysoBrite inheritance in LysoLow and LysoHigh CD49fHSCs as depicted in panel G. Symmetric LysoBrite inheritance of LysoLow and LysoHigh CD49fHSCs gives rise to symmetrically high and low CD33 expression in generation 3 offspring, respectively. CD33 levels in offspring of LysoLow daughters is higher than LysoHigh daughters after asymmetric LysoBrite inheritance. n = 3 independent experiments. Mean ± SEM. Two-tailed paired t test. (I) Average frequency of cell fates (= clusters, colors as in panel C) in offspring (generation 3) after a-/symmetric LysoBrite inheritance in LysoLow and LysoHigh CD49fHSC as depicted in panel G. Sister offspring clusters are comparable after symmetric inheritance, but differ after asymmetric inheritance. Asymmetric LysoLow sisters more frequently acquire fates (clusters) with higher levels of CD33 than their LysoHigh sisters. χ2 test, Sidak multiple comparison corrected. n = 3 independent experiments, mean ± SEM; 1994 cells analyzed.

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