Divergent phenotypes in constitutive versus conditional mutant mouse models of Sifrim-Hitz-Weiss syndrome.

Chromatin remodellers are among the most important risk genes associated with neurodevelopmental disorders (NDDs), however, their functions during brain development are not fully understood. Here, we focused on Sifrim-Hitz-Weiss Syndrome (SIHIWES)-an intellectual disability disorder caused by mutations in the CHD4 chromodomain helicase gene. We utilized mouse genetics to excise the Chd4 ATPase/helicase domain-either constitutively, or conditionally in the developing telencephalon. Conditional heterozygotes exhibited no change in cortical size and cellular composition, and had only subtle behavioral phenotypes. Telencephalon-specific conditional knockouts had marked reductions in cortical growth, reduced numbers of upper-layer neurons, and exhibited alterations in anxiety and repetitive behaviors. Despite the fact that whole-body heterozygotes exhibited comparable growth defects, they were unaffected in these behaviors, but instead exhibited female-specific alterations in learning and memory. These data reveal unexpected phenotypic divergence arising from differences in the spatiotemporal deployment of loss-of-function manipulations, underscoring the importance of context in chromatin remodeller function during neurodevelopment.

Insights into the function of FhaA, a cell division-associated protein in mycobacteria.

FhaA is a forkhead-associated domain-containing protein, the depletion of which leads to accumulation of peptidoglycan (PG) precursors at the septum and poles in Mycobacterium smegmatis (M. smegmatis), by a mechanism undefined thus far. To elucidate its function, we constructed an fhaA (MSMEG_0035) knockout (ΔfhaA) strain in M. smegmatis and demonstrated that this gene is dispensable for in vitro growth. The mutant showed a short cell length phenotype due to a probable defect in cell elongation/cell wall synthesis, which was reversed by complementation with both M. smegmatis and Mycobacterium tuberculosis (M. tb) fhaA (Rv0020c), confirming their association with the observed phenotype. The identification of penicillin binding protein A (PbpA), a PG biosynthesis enzyme as an interacting partner for mycobacterial FhaA, provided a hint into the functioning of FhaA. A drastic reduction in the levels of ectopically expressed PbpA in the ΔfhaA mutant vs wild-type M. smegmatis suggested that FhaA interacts with and stabilises PbpA. In addition, the fhaA deletion mutant was sensitive to multiple classes of antibiotics pointing to a general permeability defect. Our findings uncover a role for FhaA in PG biosynthesis and suggest its involvement in the maintenance of mycobacterial cell envelope integrity.

Identifying novel mycobacterial stress associated genes using a random mutagenesis screen in Mycobacterium smegmatis.

Cell envelope associated components of Mycobacterium tuberculosis (M.tb) have been implicated in stress response, immune modulation and in vivo survival of the pathogen. Although many such factors have been identified, there is a large disparity between the number of genes predicted to be involved in functions linked to the envelope and those described in the literature. To identify and characterise novel stress related factors associated with the mycobacterial cell envelope, we isolated colony morphotype mutants of Mycobacterium smegmatis (M. smegmatis), based on the hypothesis that mutants with unusual colony morphology may have defects in the biosynthesis of cell envelope components. On testing their susceptibility to stress conditions relevant to M.tb physiology, multiple mutants were found to be sensitive to Isoniazid, Diamide and H2O2, indicative of altered permeability due to changes in cell envelope composition. Two mutants showed defects in biofilm formation implying possible roles for the target genes in antibiotic tolerance and/or virulence. These assays identified novel stress associated roles for several mycobacterial genes including sahH, tatB and aceE. Complementation analysis of selected mutants with the M. smegmatis genes and their M.tb homologues showed phenotypic restoration, validating their link to the observed phenotypes. A mutant carrying an insertion in fhaA encoding a forkhead associated domain containing protein, showed reduced survival in THP-1 macrophages, providing in vivo validation to this screen. Taken together, these results suggest that the M.tb homologues of a majority of the identified genes may play significant roles in the pathogenesis of tuberculosis.