Regulation of the cell death program involves physical interactions between different members of the Bcl‐2 family that either promote or suppress apoptosis. The Bcl‐2 homolog, Bak, promotes apoptosis and binds anti‐apoptotic family members including Bcl‐2 and Bcl‐xL. We have identified a domain in Bak that is both necessary and sufficient for cytotoxic activity and binding to Bcl‐xL. Sequences similar to this domain were identified in Bax and Bip1, two other proteins that promote apoptosis and interact with Bcl‐xL, and were likewise critical for their capacity to kill cells and bind Bcl‐xL. Thus, the domain is of central importance in mediating the function of multiple cell death‐regulatory proteins that interact with Bcl‐2 family members.
The Tat protein of the human immunodeficiency virus (HIV) is a powerful activator of HIV gene expression. Genetic and biochemical evidence suggests that one or more cellular cofactors may be important for Tat activity. We have used two-hybrid interactive cloning in yeast to identify a partial cDNA clone (clone 10) from a human B-lymphoblastoid library that specifically interacts with the N-terminal 31 amino acids of HIV-1 Tat which contains the essential cysteine-rich portion of the Tat activation domain. The encoded protein also binds to purified Tat in vitro. Mutation of single essential cysteine residues in Tat abolishes interaction between Tat and clone 10, suggesting that interaction with the encoded protein is important for Tat activity. We have identified the full-length cDNA for the Tat binding protein and shown that overexpression of the encoded protein, Tip60 (Tat interactive protein, 60 kDa), results in a fourfold augmentation of Tat transactivation of the HIV-1 promoter in transient expression assays without increasing the basal activity of the HIV promoter or activating the heterologous RSV promoter. These data together with the genetic and in vitro binding data support the notion that Tip60 might be a cofactor of Tat involved in the regulation of HIV gene expression.
Leber congenital amaurosis (LCA) is a congenital retinal dystrophy characterized by severe visual loss in infancy and nystagmus. Although most often inherited in an autosomal recessive fashion, rare individuals with mutations in the cone-rod homeobox gene, CRX, have dominant disease. CRX is critical for photoreceptor development and acts synergistically with the leucine-zipper transcription factor, NRL. We report on the phenotype of two individuals with LCA due to novel, de novo CRX mutations, c.G264T(p.K88N) and c.413delT(p.I138fs48), that reduce transactivation in vitro to 10% and 30% of control values, respectively. Whereas the c.413delT(p.I138fs48) mutant allows co-expressed NRL to transactivate independently at its normal, baseline level, the c.G264T(p.K88N) mutant reduces co-expressed NRL transactivation and reduces steady state levels of both proteins. Although both mutant proteins predominantly localize normally to the nucleus, they also both show variable cytoplasmic localization. These observations suggest that some CRX-mediated LCA may result from effects beyond haploinsufficiency, such as the mutant protein interefering with other transcription factors' function. Such patients would therefore not likely benefit from a simple, gene-replacement strategy for their disease.
A specific pattern of uptake for modified Tat peptides was consistently seen in the rodent retina. Given the preferential uptake of these peptides by RGCs and the potential to conjugate diverse moieties, modified Tat peptides may be useful for delivery of therapeutic agents or molecular imaging probes to RGCs.
Papillorenal syndrome (PRS, also known as renal-coloboma syndrome) is an autosomal dominant disease characterized by potentially-blinding congenital optic nerve excavation and congenital kidney abnormalities. Many patients with PRS have mutations in the paired box transcription factor gene, PAX2. Although most mutations in PAX2 are predicted to result in complete loss of one allele's function, three missense mutations have been reported, raising the possibility that more subtle alterations in PAX2 function may be disease-causing. To date, the molecular behaviors of these mutations have not been explored. We describe a novel mouse model of PRS due to a missense mutation in a highly-conserved threonine residue in the paired domain of Pax2 (p.T74A) that recapitulates the ocular and kidney findings of patients. This mutation is in the Pax2 paired domain at the same location as two human missense mutations. We show that all three missense mutations disrupt potentially critical hydrogen bonds in atomic models and result in reduced Pax2 transactivation, but do not affect nuclear localization, steady state mRNA levels, or the ability of Pax2 to bind its DNA consensus sequence. Moreover, these mutations show reduced steady-state levels of Pax2 protein in vitro and (for p.T74A) in vivo, likely by reducing protein stability. These results suggest that hypomorphic alleles of PAX2/Pax2 can lead to significant disease in humans and mice.
The formation of cilia is a fundamental developmental process affecting diverse functions such as cellular signaling, tissue morphogenesis and body patterning. However, the mechanisms of ciliogenesis during vertebrate development are not fully understood. In this report we describe a novel role of the Nlz1 protein in ciliogenesis. We demonstrate morpholino-mediated knockdown of nlz1 in zebrafish causes abnormal specification of the cells of Kupffer’s vesicle (KV); a severe reduction of the number of cilia in KV, the pronephros, and the neural floorplate; and a spectrum of later phenotypes reminiscent of human ciliopathies. In vitro and in vivo data indicate that Nlz1 acts downstream of Foxj1a and Wnt8a/presumed canonical Wnt signaling. Furthermore, Nlz1 contributes to motile cilia formation by positively regulating Wnt11/presumed non-canonical Wnt signaling. Together, our data suggest a novel role of nlz1 in ciliogenesis and the morphogenesis of multiple tissues.
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