IBIMOL   23987
INSTITUTO DE BIOQUIMICA Y MEDICINA MOLECULAR PROFESOR ALBERTO BOVERIS
Unidad Ejecutora - UE
capítulos de libros
Título:
Flavanols and NF-ÛB activation: relevance for inflammation and associated diseases
Autor/es:
C. G. FRAGA; P. I. OTEIZA
Libro:
Dietary modulation of cell signaling pathways
Editorial:
CRC Press
Referencias:
Año: 2009; p. 137 - 151
Resumen:
Increasing epidemiological evidence demonstrates that diets rich in fruit and
vegetables promote health, and attenuate, or delay, the onset of various diseases,
including cardiovascular disease (CVD), diabetes, certain cancers, and several other
age-related degenerative disorders [13]. The plant components and the physiological
and molecular mechanisms by which fruit and vegetables reduce the risk for
these diseases are matters of intense investigation. One group of phytochemicals,
the fl avonoids, is gaining acceptance, playing a major role in the health benefi ts
offered by fruit and vegetables, as it was proposed by Reanud et al. [4].
Originally described as a transcription factor present in B cells, nuclear
factor-kappaB (NF-κB) is now known to be ubiquitously present in cells [5].
Multiple stimuli can trigger NF-κB activation, including proinfl ammatory
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
Multiple stimuli can trigger NF-κB activation, including proinfl ammatory
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
Multiple stimuli can trigger NF-κB activation, including proinfl ammatory
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
cytokines, bacteria, viruses and their products, oxidants, drugs, environmental
pollutants and other stressors [6]. The nature of the stimuli and the genes regulated
by NF-κB revealed that this transcription factor is involved in the cell
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
relevant pharmaceutical [7] and nutritional goal [8]. In this review we present
information on the potential effects of a particular type of fl avonoids, fl avanols
and related procyanidins, on the modulation of NF-κB, and the implications for
relevant human diseases
relevant human diseases
relevant human diseases
response to stress and consequently can be a key player in several diseases. The
identifi cation of compounds that can modulate NF-κB activation is a current and
relev