The histone-fold complex MHF is remodeled by FANCM to recognize branched DNA and protect genome stability

Histone-fold proteins typically assemble in multiprotein complexes to bind duplex DNA. However, one histone-fold complex, MHF, associates with Fanconi anemia (FA) protein FANCM to form a branched DNA remodeling complex that senses and repairs stalled replication forks and activates FA DNA damage response network. How the FANCM-MHF complex recognizes branched DNA is unclear. Here, we solved the crystal structure of MHF and its complex with the MHF-interaction domain (referred to as MID) of FANCM, and performed structure-guided mutagenesis. We found that the MID-MHF complex consists of one histone H3-H4-like MHF heterotetramer wrapped by a single polypeptide of MID. We identified a zinc atom-liganding structure at the central interface between MID and MHF that is critical for stabilization of the complex. Notably, the DNA-binding surface of MHF was altered by MID in both electrostatic charges and allosteric conformation. This leads to a switch in the DNA-binding preference — from duplex DNA by MHF alone, to branched DNA by the MID-MHF complex. Mutations that disrupt either the composite DNA-binding surface or the protein-protein interface of the MID-MHF complex impaired activation of the FA network and genome stability. Our data provide the structural basis of how FANCM and MHF work together to recognize branched DNA, and suggest a novel mechanism by which histone-fold complexes can be remodeled by their partners to bind special DNA structures generated during DNA metabolism.     

Chemotherapy-induced hemolytic uremic syndrome: Description of a potential animal model

Hemolytic uremic syndrome (HUS) is an uncommon complication of chemotherapy that contributes to the morbidity of oncology and bone marrow transplant patients. The pathogenesis is not well understood and no established clinical animal model exists. We studied four rhesus monkeys (RM) that developed fatal HUS following high-dose chemotherapy. Microangiopathic hemolytic anemia (pre-Hct 40% and day 5–8 Hct 31 % (P <.05), increased BUN (168 mg/dl), creatinine (8.2 mg/dl), and lactate dehydrogenase (1458 IU/L) (mean day 5–8 measurements) were observed. Platelets counts decreased to 39±15 × 10⁹/l from a mean of 397±31 × 10⁹/L (P < .0001). vWF, AT_III, thrombin:anti-thrombin complex (T:AT) and prothrombin fragment F1.2 levels were not different from a control group (N = 2). The data presented describe chemotherapy-induced HUS with typical clinical and laboratory features which may provide an animal model for the study of this important syndrome.     

Renal control of life-threatening malarial anemia

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Stretch-activated ion channel TMEM63B associates with developmental and epileptic encephalopathies and progressive neurodegeneration

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