James A. Cromlish scite author profile

We have identified a human Bcl-2–interacting protein, p28 Bap31. It is a 28-kD (p28) polytopic integral protein of the endoplasmic reticulum whose COOH-terminal cytosolic region contains overlapping predicted leucine zipper and weak death effector homology domains, flanked on either side by identical caspase recognition sites. In cotransfected 293T cells, p28 is part of a complex that includes Bcl-2/Bcl-XL and procaspase-8 (pro-FLICE). Bax, a pro-apoptotic member of the Bcl-2 family, does not associate with the complex; however, it prevents Bcl-2 from doing so. In the absence (but not presence) of elevated Bcl-2 levels, apoptotic signaling by adenovirus E1A oncoproteins promote cleavage of p28 at the two caspase recognition sites. Purified caspase-8 (FLICE/MACH/Mch5) and caspase-1(ICE), but not caspase-3 (CPP32/apopain/ Yama), efficiently catalyze this reaction in vitro. The resulting NH2-terminal p20 fragment induces apoptosis when expressed ectopically in otherwise normal cells. Taken together, the results suggest that p28 Bap31 is part of a complex in the endoplasmic reticulum that mechanically bridges an apoptosis-initiating caspase, like procaspase-8, with the anti-apoptotic regulator Bcl-2 or Bcl-XL. This raises the possibility that the p28 complex contributes to the regulation of procaspase-8 or a related caspase in response to E1A, dependent on the status of the Bcl-2 setpoint within the complex.

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A human lymphoid- specific transcription factor that activates immunoglobulin genes is a homoeobox protein

Scheidereit

Cromlish

Gerster

et al. 1988

Nature

386

190

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Cloning and structure of a yeast gene encoding a general transcription initiation factor TFIID that binds to the TATA box

Horikoshi

Wang

Fujii

et al. 1989

Nature

303

163

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The TATA sequence-binding factor TFIID plays a central role both in promoter activation by RNA polymerase II and other common initiation factors, and in promoter regulation by gene-specific factors. The sequence of yeast TFIID, which seems to be encoded by a single gene, contains interesting structural motifs that are possibly involved in these functions, and is similar to sequences of bacterial sigma factors.

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The secretory proprotein convertases furin, PC5, and PC7 activate VEGF-C to induce tumorigenesis

Siegfried¹,

Basak²,

Cromlish³

et al. 2003

J. Clin. Invest.

184

138

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The secretory factor VEGF-C has been directly implicated in various physiological processes during embryogenesis and human cancers. However, the importance of the conversion of its precursor proVEGF-C to mature VEGF-C in tumorigenesis, and vessel formation and the identity of the protease(s) that regulate these processes is/are not known. The intracellular processing of proVEGF-C that occurs within the dibasic motif HSIIRR(227)SL suggests the involvement of the proprotein convertases (PCs) in this process. In addition, furin and VEGF-C were found to be coordinately expressed in adult mouse tissues. Cotransfection of the furin-deficient colon carcinoma cell line LoVo with proVEGF-C and different PC members revealed that furin, PC5, and PC7 are candidate VEGF-C convertases. This finding is consistent with the in vitro digestions of an internally quenched synthetic fluorogenic peptide mimicking the cleavage site of proVEGF-C ((220)Q-VHSIIRR downward arrow SLP(230)). The processing of proVEGF-C is blocked by the inhibitory prosegments of furin, PC5, and PACE4, as well as by furin-motif variants of alpha2-macroglobulin and alpha1-antitrypsin. Subcutaneous injection of CHO cells stably expressing VEGF-C into nude mice enhanced angiogenesis and lymphangiogenesis, but not tumor growth. In contrast, expression of proVEGF-C obtained following mutation of the cleavage site (HSIIRR(227)SL to HSIISS(227)SL) inhibits angiogenesis and lymphangiogenesis as well as tumor growth. Our findings demonstrate the processing of proVEGF-C by PCs and highlight the potential use of PC inhibitors as agents for inhibiting malignancies induced by VEGF-C.

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Post-translational Processing of β-Secretase (β-Amyloid-converting Enzyme) and Its Ectodomain Shedding

Benjannet

Elagöz

Wickham

et al. 2001

Journal of Biological Chemistry

279

134

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Processing of the ␤-amyloid precursor protein (␤APP) by ␤-and ␥-secretases generates the amyloidogenic peptide A␤, a major factor in the etiology of Alzheimer's disease. Following the recent identification of the ␤-secretase ␤-amyloid-converting enzyme (BACE), we herein investigate its zymogen processing, molecular properties, and cellular trafficking. Our data show that among the proprotein convertase family members, furin is the major converting enzyme of pro-BACE into BACE within the trans-Golgi network of HK293 cells. While we demonstrate that the 24-amino acid prosegment is required for the efficient exit of pro-BACE from the endoplasmic reticulum, it may not play a strong inhibitory role since we observe that pro-BACE can produce significant quantities of the Swedish mutant ␤APP sw ␤-secretase product C99. BACE is palmitoylated at three Cys residues within its transmembrane/cytosolic tail and is sulfated at mature N-glycosylated moieties. Data with three different antibodies show that a small fraction of membrane-bound BACE is shed into the medium and that the extent of ectodomain shedding is palmitoylationdependent. Overexpression of full-length BACE causes a significant increase in the production of C99 and a decrease in the ␣-secretase product APPs␣. Although there is little increase in the generation of A␤ by full-length BACE, overexpression of either a soluble form of BACE (equivalent to the shed form) or one lacking the prosegment leads to enhanced A␤ levels. These findings suggest that the shedding of BACE may play a role in the amyloidogenic processing of ␤APP.Alzheimer's disease is a progressive degenerative disorder of the brain characterized by mental deterioration, memory loss, confusion, and disorientation. Among the cellular mechanisms contributing to this pathology are two types of fibrous protein deposition in the brain, intracellular neurofibrillary tangles consisting of polymerized tau protein, and abundant extracellular fibrils largely composed of ␤-amyloid 1 (for reviews see Refs. 1-3). ␤-Amyloid, also known as A␤, arises from proteolytic processing of the ␤-amyloid precursor protein (␤APP) at the ␤-and ␥-secretase cleavage sites. The cellular toxicity and amyloid-forming capacity of the two major forms of A␤ (A␤ 40 and especially A␤ 42 ) have been well documented (1-3).An alternative, anti-amyloidogenic cleavage carried out by ␣-secretase(s) is located within the A␤ peptide sequence of ␤APP, thus precluding the formation of intact insoluble A␤. This cleavage by ␣-secretase within the (His-His-GlnLys2Leu-Val) sequence of ␤APP is the major physiological route of APP maturation. The products of this reaction are a soluble 100 -120-kDa N-terminal fragment (␤APPs␣) and a C-terminal membrane-bound ϳ9-kDa segment (C83). In several recent reports, metalloproteinases such as ADAM9, -10, and -17 were shown to be involved in the ␣-secretase cleavage

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James A. Cromlish

p28 Bap31, a Bcl-2/Bcl-XL- and Procaspase-8–associated Protein in the Endoplasmic Reticulum

A human lymphoid- specific transcription factor that activates immunoglobulin genes is a homoeobox protein

Cloning and structure of a yeast gene encoding a general transcription initiation factor TFIID that binds to the TATA box

The secretory proprotein convertases furin, PC5, and PC7 activate VEGF-C to induce tumorigenesis

Post-translational Processing of β-Secretase (β-Amyloid-converting Enzyme) and Its Ectodomain Shedding

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