Your search keyword '"Gupta Bansal P"' showing total 3 results

1. Proteoglycan-mediated Inhibition of Aβ Proteolysis

Author

Gupta-Bansal, Rekha, Frederickson, Robert C.A., and Brunden, Kurt R.

Abstract

Senile plaques of Alzheimer's disease brain contain, in addition to beta amyloid peptide (Aβ), multiple proteoglycans. Systemic amyloidotic deposits also routinely contain proteoglycan, suggesting that these glycoconjugates are generally involved in amyloid plaque formation and/or persistence. We demonstrate that heparan sulfate proteoglycan (HSPG) and chondroitin sulfate proteoglycan (CSPG) inhibit the proteolytic degradation of fibrillar, but not non-fibrillar, Aβ at physiological pH. In accordance with the proteolysis studies, high affinity binding of proteoglycans to fibrillar Aβ(1-40) and Aβ(1-42) is observed from pH 4 to 9, whereas appreciable binding of HSPG or CSPG to non-fibrillar peptide is only seen at pH < 6. This differing pH dependence of binding suggests that a lysine residue is involved in proteoglycan association with fibrillar Aβ, whereas a protonated histidine appears to be needed for binding of the glycoconjugates to non-fibrillar peptide. Scatchard analysis of fibrillar Aβ association with proteoglycans indicates a single affinity interaction, and the binding of both HSPG and CSPG to fibrillar Aβ is completely inhibited by free glycosaminoglycan chains. This implies that these sulfated carbohydrate moieties are primarily responsible for proteoglycan•Aβ interaction. The ability of proteoglycans to bind fibrillar Aβ and inhibit its proteolytic degradation suggests a possible mechanism of senile plaque accumulation and persistence in Alzheimer's disease.

Published

1995

2. Proteoglycan-mediated inhibition of A beta proteolysis. A potential cause of senile plaque accumulation.

Author

Gupta-Bansal, R, Frederickson, R C, and Brunden, K R

Abstract

Senile plaques of Alzheimer's disease brain contain, in addition to beta amyloid peptide (A beta), multiple proteoglycans. Systemic amyloidotic deposits also routinely contain proteoglycan, suggesting that these glycoconjugates are generally involved in amyloid plaque formation and/or persistence. We demonstrate that heparan sulfate proteoglycan (HSPG) and chondroitin sulfate proteoglycan (CSPG) inhibit the proteolytic degradation of fibrillar, but not non-fibrillar, A beta at physiological pH. In accordance with the proteolysis studies, high affinity binding of proteoglycans to fibrillar A beta(1-40) and A beta(1-42) is observed from pH 4 to 9, whereas appreciable binding of HSPG or CSPG to non-fibrillar peptide is only seen at pH < 6. This differing pH dependence of binding suggests that a lysine residue is involved in proteoglycan association with fibrillar A beta, whereas a protonated histidine appears to be needed for binding of the glycoconjugates to non-fibrillar peptide. Scatchard analysis of fibrillar A beta association with proteoglycans indicates a single affinity interaction, and the binding of both HSPG and CSPG to fibrillar A beta is completely inhibited by free glycosaminoglycan chains. This implies that these sulfated carbohydrate moieties are primarily responsible for proteoglycan.A beta interaction. The ability of proteoglycans to bind fibrillar A beta and inhibit its proteolytic degradation suggests a possible mechanism of senile plaque accumulation and persistence in Alzheimer's disease.

Published

1995

3. Recommendations for India-specific multiple micronutrient supplement through expert consultation.

Author

Mukherjee R, Gupta Bansal P, Lyngdoh T, Medhi B, Sharma KA, Prashanth T, Pullakhandam R, Chowdhury R, Taneja S, Yadav K, Madhari R, Arora NK, Bhandari N, Kulkarni B, Nair KM, and Bhatnagar S

Subjects

Humans, India epidemiology, Pregnancy, Female, Folic Acid administration & dosage, Iron administration & dosage, World Health Organization, Pregnancy Complications epidemiology, Pregnancy Complications prevention & control, Micronutrients administration & dosage, Dietary Supplements

Abstract

Background & objectives Reducing maternal anaemia and enhancing feto-maternal health to achieve desired birth outcomes is a major health concern in India. Micronutrient deficiencies during pregnancy may impact fetal growth and neonatal outcomes. There is increasing interest in using multiple micronutrient supplement (MMS) during pregnancy. However, the World Health Organization (WHO) recommends use of MMS containing Iron and Folic Acid (IFA) in the context of "rigorous research". Against this backdrop, an Indian Council of Medical Research (ICMR)-led MMS design expert group met over six months to review the evidence and decide on the formulation of an India-specific MMS supplement for pregnant mothers for potential use in a research setting. Methods The India-MMS design expert group conducted a series of meetings to assess the available evidence regarding the prevalence of micronutrient deficiencies in pregnant women in India, the health benefits of supplementing with different micronutrients during pregnancy, as well as nutrient interactions within the MMS formulation. Based on these considerations, the expert group reached a consensus on the composition of the MMS tailored for pregnant women in India. Results The India-specific MMS formulation includes five minerals and 10 vitamins, similar to the United Nations International Multiple Micronutrient Antenatal Preparation (UNIMMAP) composition. However, the quantities of all vitamins and minerals except Zinc, Vitamin E, and Vitamin B6 differ. Interpretation & conclusions This report provides an overview of the process adopted, the evidence evaluated, and the conclusions from the expert working group meetings to finalize an MMS supplement in pregnancy for the Indian context to be used in a research setting.

Published

2024