Juan-Carlos Jimenez scite author profile

Juan-Carlos Jimenez

3Publications

26Citation Statements Received

5Citation Statements Given

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Affiliations

Pasteur Institute of Lille, Inserm

Publications

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Cell Death in Protists without Mitochondria

Chose

Sarde

Noël

et al. 2003

Annals of the New York Academy of Sciences

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Some protozoans, such as Trichomonad species, do not possess mitochondria. Most of the time, they harbor another type of membrane-bounded organelle, called hydrogenosome from its capacity to produce H(2). This is the case for the human parasite Trichomonas vaginalis. Some other parasites, such as the protist Giardia lamblia, do not harbor any of these organelles. From this observation arises naturally a naive question: How do cells die when the mitochondrion, the cornerstone of apoptotic process, is absent? Data strongly suggest that the mitochondrion and the hydrogenosome arose from a common ancestral endosymbiont. But hydrogenosomes do not appear to directly substitute for mitochondria in apoptotic functions. Thus, it appears judicious to examine more closely the genome of unicellular cells, which do not harbor mitochondria, and search for new molecules that could participate in the apoptotic process in these microorganisms.

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Identification and Partial Characterization of Excretory/Secretory Products with Proteolytic Activity in Giardia intestinalis

Jimenez¹,

Uzcanga²,

Zambrano³

et al. 2000

J Parasitol

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This report examines the presence of proteolytic activity detected in media collected from in vitro cultures of Giardia intestinalis, and the partial characterization by gelatin-substrate polyacrylamide gel electrophoresis and inhibition studies. Gelatin-substrate polyacrylamide gel electrophoresis revealed 6 bands with proteolytic activity, with estimated molecular weights of 36, 59, 63, 72, 103, and 175 kDa. These bands were not present in the control medium. On the other hand, G. intestinalis trophozoite lysates showed proteolytic bands at 16, 20, 66, 82, 108, and 120 kDa, thus indicating that intracellular proteases could be different from the excretory/secretory (E/S) products. Based on inhibition studies, 2 bands of 59 and 63 kDa were inhibited by iodoacetic acid, indicating the presence of cysteine proteases. Partial inhibition of a band of 36 kDa was found with EDTA, a metal-chelating agent, suggesting the possible presence of metalloproteases. The presence of aspartic and serine proteases were not detected under the assay conditions used. As G. intestinalis E/S may be involved in differentiation mechanisms of the parasite and also be responsible for the mucosal alterations that occur in giardiasis, the characterization of these proteases may facilitate their evaluation as targets in the therapy of the disease.

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Characterization of the N-linked glycans of Giardia intestinalis

Morelle¹,

Jimenez²,

Cieniewski-Bernard³

et al. 2004

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This article reports the first rigorous evidence for the existence of N-glycans in Giardia intestinalis, a parasite that is a widespread human pathogen, being a major cause of enteric disease in the world. Excreted/secreted molecules of G. intestinalis are known to stimulate the immune system. Structural strategies based on MALDI and electrospray mass spectrometry were employed to examine the excreted/secreted molecules for their N-glycan content. These revealed that the major oligosaccharides released by peptide N-glycosidase F are complex-type structures and correspond to bi-, and triantennary structures without core (alpha1,6) fucosylation. The major nonreducing epitopes in these complex-type glycans are: Galbeta1-4GlcNAc (LacNAc) and NeuAc alpha2-6Galbeta1-4GlcNAc (sialylated LacNAc).

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