Efficacy, toxicity study and antioxidant properties of plantaricin E and F recombinants against enteropathogenic Escherichia coli K1.1 (EPEC K1.1).

Enteropathogenic Escherichia coli (EPEC) is one of the resistance bacteria towards antibiotics and have been raising problem during treatments. Therefore, a new antibiotic candidate is required. Plantaricin E and F recombinant have been successfully produced by a GRAS host Lactococcus lactis. This study was aimed to evaluate the efficacy and toxicity of plantaricin E and F recombinant against EPEC K1.1 infection by in vivo assay. The production of plantaricin E and F recombinants from Lactococcus lactis was conducted and encapsulated. The in vivo study was carried out by inoculating the mice perorally with EPEC K1.1 for 7 days then treated with 100, 250, and 500 mg/kg body weight/day of recombinant plantaricin E and F for another 7 days. The toxicity assay were observed in ddY mice using various concentrations of treatment (50, 100, 1000, and 5000 mg/kg/body weight) doses perorally for 48 h. The result showed that the plantaricin E and F recombinant were successfully produced in Lactococcus lactis expression host with 3.7 kDa and 3.8 kDa in size. The efficacy study revealed the optimal doses of plantaricin E and F recombinant against EPEC K1.1 infection was 250 mg/kgBW for plantaricin E and 500 mg/kgBW for plantaricin F. The plantarisin E and F recombinant treatment showed improvement in leukocyte, hematocrit, and hemoglobin levels as well in decreasing malondialdehyde (MDA) level. Observation of the intestine histopathology showed small amounts of mononuclear inflammatory cell infiltration than the other groups of treatment. The acute toxicity assay showed that there was no mortality observed during the assay, even after 5000 mg/kg body weight of plantarisin E and F recombinant treatment (LD50 > 5000 mg/KgBW). The hematological and biochemical observations showed normal levels in leukocytes, erythrocytes, hematocrit, hemoglobin, platelets, urea, creatinine, and alanine transaminase aspartate transaminase (SGOT and SGPT) while histopathological observation shows a picture of normal liver and kidney cells. This study confirmed the application of bacteriocin for further academic and industrial purposes as a non-toxic substance for food preservative and antibiotic candidate.

Fatty acid composition profiling in the dorsal skin of Sunda porcupine (Hystrix javanica).

The fatty acid composition in the skin of Sunda porcupine (Hystrix javanica) is an interesting topic due to the special features of quills, especially in the dorsal region. Therefore, this study aims to analyze the composition of fatty acids in the dorsal region of Sunda porcupine skin. It was conducted using skin samples of the thoracodorsal and lumbosacral regions taken by biopsies and from frozen specimens. The skin lipid was extracted and then derivatized into fatty acid methyl ester before analyzing with gas chromatography mass spectrometry. The results showed that the skin is composed of up to 25 fatty acids ranging from C12 to C25 with various types but only 16 were found in both regions and sexes. Fatty acids with an antibacterial effect were found abundantly, such as oleic, palmitic, stearic, and linoleic acids. The total abundance in the thoracodorsal region was higher than lumbosacral, while the composition in male was higher than in female. Based on the results, the fatty acid composition in the dorsal skin region of Sunda porcupine consists of at least 16 types ranging from C12-C25. Additionally, the region and sex were observed to contribute significantly to the variation in skin fatty acid composition.

The dorsal skin structure contributes to the surface bacteria populations of Sunda Porcupine (Hystrix javanica).

Skin becomes the largest organ in the body and protects its own inner layer. The structure and chemical composition of the skin contribute to skin condition and affect the habitat of certain bacteria. The Sunda Porcupine is one of endemic animals of Indonesia which possesses quill as the main derivate of its skin and as a defence tool against predators. The present study used nine adults (five females and four males) of Sunda Porcupine and aimed to observe the correlation of skin structure with bacterial population at the surface level. The skin was wavy due to the protrusion of quill follicle orifices on the skin surface and formed clusters. The skin of Sunda Porcupine was also wrinkled and had a lot of flakiness. Histologically, the skin was composed of epidermis, dermis, hypodermis and subcutaneous muscle. The quill follicles and their properties were the dominant structure component of the skin. No sweat gland was observed in the skin of the Sunda Porcupine, and sebaceous gland was found only around quill and hair follicles. The bacterias identified in the skin were Staphylococcus aureus, S. epidermidis, Micrococcus sp. and Salmonella sp. When compared, the bacterial population was higher in the lumbosacral region than in the thoracodorsal region, but the difference was not significant. The density of quill clusters was negatively correlated to the bacterial population. It was suggested the structure of the skin has contribution to bacterial population in dorsal trunk of the Sunda Porcupine.