Abstract:
Background: Disturbances in regulation of cysteine activity may leads to severe disease
conditions such as cancers, neurodegenerative disorders and cardiovascular diseases. Therefore,
the discovery of natural cysteine inhibitors paved the way to a novel therapeutic strategy against
such diseases.
Objectives: To investigate the cysteine inhibitory activity (CIA) of seed extracts of two local
breeds of Vigna unguiculate (cowpea) and the effect of temperature on CIA.
Methods: Seeds of two local breeds known as Dahawala and Bombay were collected from the
Field Crops Research and Development Institute of Sri Lanka. A concentration gradient (1.25,
2.5, 5, 10, and 20, % w/v) of aqueous seed extracts was screened for CIA. The seed extracts
were incubated with L-cysteine in phosphoric acid buffer (pH 7.5) and then the casein was
added as the substrate. Following the incubation at 37⁰C, trichloroacetic acid was added. The
absorbance of the supernatant was recorded at 280 nm and percentage cysteine inhibitory
activity (CIA%) was calculated. The thermal stability of the inhibitors was studied by pre incubation of seed sample in different temperatures following evaluation of CIA.
Results: Among the concentrations screened, the maximum CIA% was exhibited by 10% seed
extracts of both breeds [Bombay, 67.5 (±0.01%); Dahawala, 65.5 (±0.03%)]. Hence, 10%
extract was assessed for thermal stability. Dahawala seed extract demonstrated its maximum
CIA% at 37⁰C [69.52 (±0.03%)], while it was 39.44 (±0.07%) at 60⁰C. The extract did not exert
any activity beyond 80⁰C. Bombay seeds extract showed the optimum CIA% at 37⁰C [65.27
(±0.06%)], while the inhibitory activity at 60, 80 and 100⁰C were 32.63 (±0.02%), 26.60
(±0.08%) and 18.03 (±0.01%), respectively.
Conclusions: The results revealed that, the seed extracts of both breeds contain a considerable
amount of cysteine inhibitors. The inhibitors present in Dahawala seeds are heat-labile, while
the inhibitors in Bombay seeds are heat stable as they demonstrated a considerable activity even
at high temperatures.