A. K. Masood scite author profile

A. K. Masood

5Publications

25Citation Statements Received

68Citation Statements Given

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134

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Aligarh Muslim University

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Use of Liposomes as an Immunopotentiating Delivery System: in Perspective of Vaccine Development

et al. 2001

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Liposomes have been widely used to deliver antigens to the antigen-presenting cells (APCs) and also to modify their immunological behaviour in model animals. We recently demonstrated the potential of yeast lipid liposomes to undergo membrane±membrane fusion with cytoplasmic membrane of the target cells. Interestingly, studies in the present report revealed that antigen encapsulated in yeast lipid liposomes could be successfully delivered simultaneously into the cytosolic as well as endosomal processing pathways of APCs, leading to the generation of both CD41 T helper and CD8 1 cytotoxic T cells. In contrast, encapsulation of same antigen in egg phosphatidyl-choline (PC) liposomes, just like its free form, has inefficient access to the cytosolic pathway of major histocompatibility complex (MHC) I dependent antigen presentation and failed to generate antigen specific CD81 cytotoxic T-cell response. However, both egg PC as well as yeast lipid liposomes have elicited strong antigen specific antibody responses in immunized animals. These results imply usage of liposome encapsulated antigen as potential candidate vaccine capable of eliciting both cell mediated as well as humoral immune responses.

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Immunomodulator Tuftsin Augments Anti-fungal Activity of Amphotericin B Against Experimental Murine Candidiasis

Masood

Faisal

Haque

et al. 2002

Journal of Drug Targeting

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In the present study, we report the potential of an immunomodulator tuftsin in increasing the efficacy of liposomised Amphotericin B (Amp B) against drug sensitive as well as drug resistant experimental murine candidiasis. The Amp B containing liposomes demonstrated strong potential of eliminating systemic candidiasis (70% survival) in animals infected with Amp B sensitive strain of Candida albicans (C. albicans). The same liposomal formulation was found to be ineffective in treatment of animals infected with drug resistant C. albicans. However, the co-administration of liposomal formulation of Amp B along with an immunomodulator tuftsin, was found to be competent enough in curing even the drug resistant candidiasis. In contrast, none of the animals survived in the control groups, which were treated with free or liposomised Amp B (without tuftsin). Further, the effect of liposomised tuftsin, on T-cell proliferation as well as antibody production reveals that tuftsin elicits strong immunopotentiating effects as well. The pretreatment with liposomised tuftsin prior to challenging the animals with drug resistant C. albicans infection has also been effective and shows an extra edge in prophylactic perspectives.

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Fusogenic potential of prokaryotic membrane lipids.

Ahmad

Masood

Owais

2001

European Journal of Biochemistry

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Development of protective immunity against many pathogens, particularly viruses, requires fine orchestration of both humoral‐ and cell mediated‐immunity. The immunization of animals with soluble antigens usually leads to the induction of humoral immune responses. In contrast, the activation of a cell‐mediated immune response against exogenous antigens has always been a challenge, requiring special strategies to expose them to the proteasome, a multifunctional protease complex in the cytosol of the target cells. The degradation of the protein by the cytosolic proteolytic system forms a cardinal step for the induction of cytotoxic T lymphocytes (CTLs). In the present study, we report that a potent primary CTL response against a soluble protein, ovalbumin, can be induced in mice by encapsulating it in the liposomes comprised of Escherichia coli membrane lipids. These lipids were shown to induce strong membrane–membrane fusion as evident from resonance energy transfer and content mixing assays. Furthermore, the fusion of these liposomes with living cells (J774 A1) was demonstrated to result in effective transfer of a fluorescent lipid probe to the plasma membrane of the cells. Moreover, ricin A, a protein synthesis inhibitor that does not cross plasma membrane, was demonstrated to gain access to the cytosol when it was encapsulated in these liposomes. Finally, the liposomes were demonstrated to behave like efficient vehicles for the in vivo delivery of the antigens to the target cells resulting in the elicitation of antigen reactive CD8+ T cell responses.

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Liposome‐Bilirubin Interaction: A Novel Strategy to Eliminate Bilirubin from Systemic Circulation

Masood

Moin

Tayyab

et al. 2004

Journal of Liposome Research

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In the present study, we established the role of liposomes in removal of bilirubin from systemic circulation of the hyperbilirubinemic rats. Bilirubin has been demonstrated to possess inherent tendency to interact with liposomes through ionic as well as hydrophobic interactions. The size as well as lamellarity of the liposomes does not seem to affect their binding with bilirubin. However, the charge on the surface of liposomes plays an important role in bilirubin-liposome interaction, e.g., bilirubin binds more extensively with positively charged liposomes as compared to the neutral or negatively charged liposomes. The present study further demonstrates that liposomes were effective in reducing the increased plasma bilirubin level in hyperbilirubinemic model animals as well. The results of the study suggest that positively charged liposome-mediated selective homing of excess plasma bilirubin to the hepatocytes seems to offer an important strategy in management of hyperbilirubinemic conditions.

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Binding of bilirubin with albumin-coupled liposomes: implications in the treatment of jaundice

Masood¹,

Faisal²,

Mushahid³

et al. 2002

Biochimica et Biophysica Acta (BBA) - Biomembranes

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In the present study, we demonstrated the suitability of liposomes as a method of removing plasma bilirubin in hyperbilirubinemic rats. The liposomes have innate tendency to bind with bilirubin through hydrophobic interaction. Among different types of liposomes, the positively charged liposomes were found to have maximum affinity to free bilirubin. However, the entrapment or coupling of serum albumin on the surface of egg phosphatidylcholine liposomes can render a several-fold increase in their bilirubin binding capacity. The proteoliposomes were able to preferentially bind with bilirubin even in the presence of erythrocytes. Interestingly, these liposomes were found to displace bilirubin bound on the surface of erythrocytes as well. The results of the present study further demonstrate that albumin-bearing liposomes were equally effective in removing plasma bilirubin in experimental jaundiced animals. These observations indicate that liposome-mediated selective homing of excess plasma bilirubin to the liver cells (cf. hepatocytes) may help in the development of safer strategy for the treatment of hyperbilirubinemic conditions in the model animals.

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A. K. Masood

Use of Liposomes as an Immunopotentiating Delivery System: in Perspective of Vaccine Development

Immunomodulator Tuftsin Augments Anti-fungal Activity of Amphotericin B Against Experimental Murine Candidiasis

Fusogenic potential of prokaryotic membrane lipids.

Liposome‐Bilirubin Interaction: A Novel Strategy to Eliminate Bilirubin from Systemic Circulation

Binding of bilirubin with albumin-coupled liposomes: implications in the treatment of jaundice

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