Estudo estrutural e funcional das proteínas ligadoras de ácidos graxos (FABP- Fatty Acid Binding Proteins) de Fasciola hepatica / Study structural and functional fatty acid binding proteins of Fasciola hepatica

Wagner Lopes

26 October 2011

As proteínas ligadoras de ácidos graxos (Fatty Acid Binding Proteins, FABPs) de parasitos têm um papel importante no processo de infecção por estes organismos. Por este motivo, estas proteínas são antígenos candidatos para vacina contra a infecção por Schistosoma mansoni e Fasciola hepatica. No presente trabalho foram caracterizadas FABPs de F. hepatica e comparadas com a proteína Sm14 de S. mansoni, a FABP de parasito melhor caracterizada, mediante análise de sequências e estruturas modeladas. Também foram clonadas, expressas e purificadas as FABPs tipo 1 e tipo 3 de F. hepatica. Os resultados do presente estudo indicam que a FABP tipo 3 de F. hepatica é relacionada estrutural, imunológica e funcionalmente com a Sm14, um candidato vacinal amplamente estudado. Devido à importância da Sm14 como alvo para o desenvolvimento de vacina para a esquistossomose, as características apresentadas pela FhFABP3 de F. hepatica apontam esta proteína como um candidato importante também para o desenvolvimento de uma vacina contra a fasciolose / Parasites fatty acid binding proteins (FABPs) have an important role in infection process by these organisms. For this reason, these proteins are candidates as vaccine antigens against Schistosoma mansoni and Fasciola hepatica infection. In the present study, FABPs from F. hepatica were characterized and compared with Sm14 protein from S. mansoni, the best characterized parasite FABP, by sequence analysis and modeled structure. Type 1 and type 3 FABPs from F. hepatica were also cloned, expressed and purified. The results of this study indicated that type 3 FABP from F. hepatica is structural, immunological and functionally related with Sm14, a vaccine candidate widely studied. Due to the importance of Sm14 as a target for vaccine development for schistosomiasis, the characteristics presented by the FhFABP3 from F. hepatica suggest this protein as a candidate also important for the development of a vaccine against fasciolosis

FABPs

Sm14

FABP3

Fasciola hepatica

Schistosoma mansoni

FABPs

Sm14

FABP3

Schistosoma mansoni

MICROBIOLOGIA MEDICA

Estudo estrutural e funcional das proteínas ligadoras de ácidos graxos (FABP- Fatty Acid Binding Proteins) de Fasciola hepatica / Study structural and functional fatty acid binding proteins of Fasciola hepatica

Wagner Lopes

26 October 2011

As proteínas ligadoras de ácidos graxos (Fatty Acid Binding Proteins, FABPs) de parasitos têm um papel importante no processo de infecção por estes organismos. Por este motivo, estas proteínas são antígenos candidatos para vacina contra a infecção por Schistosoma mansoni e Fasciola hepatica. No presente trabalho foram caracterizadas FABPs de F. hepatica e comparadas com a proteína Sm14 de S. mansoni, a FABP de parasito melhor caracterizada, mediante análise de sequências e estruturas modeladas. Também foram clonadas, expressas e purificadas as FABPs tipo 1 e tipo 3 de F. hepatica. Os resultados do presente estudo indicam que a FABP tipo 3 de F. hepatica é relacionada estrutural, imunológica e funcionalmente com a Sm14, um candidato vacinal amplamente estudado. Devido à importância da Sm14 como alvo para o desenvolvimento de vacina para a esquistossomose, as características apresentadas pela FhFABP3 de F. hepatica apontam esta proteína como um candidato importante também para o desenvolvimento de uma vacina contra a fasciolose / Parasites fatty acid binding proteins (FABPs) have an important role in infection process by these organisms. For this reason, these proteins are candidates as vaccine antigens against Schistosoma mansoni and Fasciola hepatica infection. In the present study, FABPs from F. hepatica were characterized and compared with Sm14 protein from S. mansoni, the best characterized parasite FABP, by sequence analysis and modeled structure. Type 1 and type 3 FABPs from F. hepatica were also cloned, expressed and purified. The results of this study indicated that type 3 FABP from F. hepatica is structural, immunological and functionally related with Sm14, a vaccine candidate widely studied. Due to the importance of Sm14 as a target for vaccine development for schistosomiasis, the characteristics presented by the FhFABP3 from F. hepatica suggest this protein as a candidate also important for the development of a vaccine against fasciolosis

FABPs

Sm14

FABP3

Fasciola hepatica

Schistosoma mansoni

FABPs

Sm14

FABP3

Schistosoma mansoni

MICROBIOLOGIA MEDICA

Adipose tissue FABP deficiency promotes metabolic reprogramming and positively impacts healthspan

Charles, Khanichi Nona

04 February 2016

The adipose tissue lipid chaperones aP2 and mal1, also known as fatty acid binding proteins (FABPs), are significant molecules contributing to metabolic homeostasis, whereby their absence promotes physiological changes that improve systemic metabolism. Identification of palmitoleate as a lipokine generated in aP2-mal1 deficiency--originating from adipose and directing the lipogenic program in liver, established a role for these chaperones in linking adipocyte and hepatic function. We have recently demonstrated a functional role for secreted aP2 in the activation of gluconeogenesis and hepatic glucose output, further designating this molecule as an adipocyte-derived regulatory factor that influences liver metabolism. Key molecules linking the metabolism of nutrients in energy generating pathways are the nucleotide cofactors NAD and NADH. Together, these molecules function to coordinate the maintenance of redox reactions during normal cellular metabolism and act as required substrates for enzymes such as sirtuins and poly ADP-ribose polymerases. Using global metabolite profiling, we show that combined deficiency of the adipose tissue lipid chaperones aP2 and mal1 leads to a hepatic nucleotide imbalance resulting from metabolic reprogramming in liver. We demonstrate that this reprogramming of metabolite flux is accompanied by significant alterations in liver NAD metabolism and establish a role for aP2 in directing substrate utilization through inhibition of the rate-limiting enzyme for NAD synthesis, nicotinamide phosphoribosyltransferase. Several models for the proposed regulatory pathways that link nutrient metabolism to aging include mechanisms that are NAD dependent. Accordingly, we found that long-term FABP deficiency confers a strong resistance to aging related metabolic deterioration. Together, the findings presented in this thesis support a considerable role for FABPs in the regulation of NAD metabolism and healthspan.

Molecular biology

Aging

Aging

aP2

FABPs

NAD metabolism

Obesity

Type 2 diabetes