Farhat A. Khan scite author profile

Huntington's disease (HD) is a progressive neurodegenerative disorder caused by an expanding CAG repeat coding for polyglutamine in the huntingtin protein. Recent data have suggested the possibility that an N-terminal fragment of huntingtin may aggregate in neurons of patients with HD, both in the cytoplasm, forming dystrophic neurites, and in the nucleus, forming intranuclear neuronal inclusion bodies. An animal model of HD using the short N-terminal fragment of huntingtin has also been found to have intranuclear inclusions and this same fragment can aggregate in vitro . We have now developed a cell culture model demonstrating that N-terminal fragments of huntingtin with expanded glutamine repeats aggregate both in the cytoplasm and in the nucleus. Neuroblastoma cells transiently transfected with full-length huntingtin constructs with either a normal or expanded repeat had diffuse cytoplasmic localization of the protein. In contrast, cells transfected with truncated N-terminal fragments showed aggregation only if the glutamine repeat was expanded. The aggregates were often ubiquitinated. The shorter truncated product appeared to form more aggregates in the nucleus. Cells transfected with the expanded repeat construct but not the normal repeat construct showed enhanced toxicity to the apoptosis-inducing agent staurosporine. These data indicate that N-terminal truncated fragments of huntingtin with expanded glutamine repeats can aggregate in cells in culture and that this aggregation can be toxic to cells. This model will be useful for future experiments to test mechanisms of aggregation and toxicity and potentially for testing experimental therapeutic interventions.

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Critical Evaluation of Different Methods for Measuring the Functional Activity of Antibodies Against Malaria Blood Stage Antigens

Bergmann‐Leitner

Duncan²,

Mullen

et al. 2006

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Antibodies are thought to be the primary immune effectors in the defense against erythrocytic stage Plasmodium falciparum. Thus, malaria vaccines directed to blood stages of infection are evaluated based on their ability to induce antibodies with anti-parasite activity. Such antibodies may have different effector functions (e.g., inhibition of invasion or inhibition of parasite growth/development) depending on the target antigen. We evaluated four methods with regards to their ability to differentiate between invasion and/or growth inhibitory activities of antibodies specific for two distinct blood stage antigens: AMA1 and MSP1(42). We conclude that antibodies induced by these vaccine candidates have different modes of action that vary not only by the antigen, but also by the strain of parasite being tested. Analysis based on parasitemia and viability was essential for defining the full range of anti-parasite activities in immune sera.

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Histidine affinity tags affect MSP1₄₂ structural stability and immunodominance in mice

Khan

Legler

Mease

et al. 2011

Biotechnology Journal

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Inclusion of affinity tags has greatly facilitated process development for protein antigens, primarily for their recovery from complex mixtures. Although generally viewed as supportive of product development, affinity tags may have unintended consequences on protein solubility, susceptibility to aggregation, and immunogenicity. Merozoite surface protein 1 (MSP1), an erythrocytic stage protein of Plasmodium falciparum and a candidate malaria vaccine, was used to evaluate the impact of a metal ion affinity-tag on both protein structure and the induction of immunity. To this end, codon harmonized gene sequences from the P. falciparum MSP1(42) of FVO and 3D7 parasites were cloned and purified with and without a histidine (His) tag. We report on the influence of His-affinity tags on protein expression levels, solubility, secondary structure, thermal denaturation, aggregation and the impact on humoral and cellular immune responses in mice. While the overall immunogenicity induced by His-tagged MSP1(42) proteins is greater, the fine specificity of the humoral and cellular immune responses is altered relative to anti-parasitic antibody activity and the breadth of T-cell responses. Thus, the usefulness of protein tags may be outweighed by their potential impact on structure and function, stressing the need for caution in their use. See accompanying commentary by Randolph DOI: 10.1002/biot.201100459.

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Cloning and sequence analysis of a human type A/B hnRNP protein

1991

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A cDNA encoding a 284 residue long type A/B hnRNP protein has been cloned. This protein, previously rcfcrred to as type C [(1987) J. Biol. Chcm. 262, 17126-171371, is an RNA unwinding protein from HeLa 40s hnRNP with a high affinity for G-followed by U-rich sequences. The N-terminal part of the protein contains two consensus RNA binding domains prcscnt in a number of other RNA binding proteins, The C-terminal part is glycine-rich and contains a potential ATP/GTP binding loop. The distribution of charged amino acids is highly uneven and there are multiple potential phosphorylation sites.hnRNP protein; RNA binding motif; Domain structure

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Farhat A. Khan

Truncated N-terminal fragments of huntingtin with expanded glutamine repeats form nuclear and cytoplasmic aggregates in cell culture

Critical Evaluation of Different Methods for Measuring the Functional Activity of Antibodies Against Malaria Blood Stage Antigens

Histidine affinity tags affect MSP1₄₂ structural stability and immunodominance in mice

Cloning and sequence analysis of a human type A/B hnRNP protein

Contact Info

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Resources

About

Farhat A. Khan

Truncated N-terminal fragments of huntingtin with expanded glutamine repeats form nuclear and cytoplasmic aggregates in cell culture

Critical Evaluation of Different Methods for Measuring the Functional Activity of Antibodies Against Malaria Blood Stage Antigens

Histidine affinity tags affect MSP142 structural stability and immunodominance in mice

Cloning and sequence analysis of a human type A/B hnRNP protein

Contact Info

Product

Resources

About

Histidine affinity tags affect MSP1₄₂ structural stability and immunodominance in mice