Suman Kapila

Biofunctional properties of bioactive peptides of milk origin.

Milk proteins are currently the main source of a range of biologically active substances which are inactive within the sequence of native protein but can be released by enzymatic hydrolysis. Milk borne bioactive peptides have been found to exhibit various physiological activities such as antihypertensive, opioid, immunomodulatory antimicrobial, antioxidative, antithrombotic, and cytomodulatory. Such bioactive peptides may find use in the treatment of diarrhea, hypertension, thrombosis, dental carries, oxidative stress, mineral malabsorption, and immunodeficiency. These bioactive peptides may be used in formulation of functional foods, nutraceuticals, and natural drugs because of their health benefit effects.

Safety assessment and evaluation of probiotic potential of bacteriocinogenic Enterococcus faecium KH 24 strain under in vitro and in vivo conditions.

In the present investigation, a previously isolated Enterococcus faecium KH 24 strain was evaluated for the presence of virulence determinants (agg, esp, efaAfm, gelE, cylA, cylB, clyM, cpd, cob, ccf, ace and hyl), sensitivity to various antibiotics and production of biogenic amines. No virulence determinants were detected, except efaAfm. KH 24 was found to be sensitive to most of the tested antibiotics and none of the biogenic amines were produced by it. Moreover, KH 24 showed good in vitro tolerance to biological barriers and furthermore, its survival in gut of mice was also evaluated. Mice group fed with E. faecium KH 24 strain showed better weight gain and nearly 1 log cfu/g decrease in Salmonella enteritidis counts in the intestines as compared to control (p<0.05). Enhanced growth of lactobacilli (p<0.05) and decrease in coliform counts (p<0.05) were also observed in test group. E. faecium KH 24 is, therefore, found to be a safe strain and it may be used as protective culture or as a probiotic in food preparations.

Antioxidative and hypocholesterolemic effect of Lactobacillus casei ssp casei (biodefensive properties of lactobacilli)

BACKGROUND A positive correlation between an individuals cholesterol level and development of CHD has been suggested. Low levels of high-density lipoprotein cholesterol (HDL-C) and high levels of low-density lipoprotein cholesterol (LDL-C) are important risk factors and oxidation of LDL has been implicated as an initiator of atherosclerosis. AIM Attempts are being made worldwide for the search of effective antioxidants that can prevent oxidation of LDL. Role of fermented milk and culture containing dairy products as effective antioxidants and their potential hypocholesterolemic effect is the focus of research. Keeping this in view, the various lactobacilli cultures were screened for their in vitro antioxidative activity. Lactobacillus casei ssp casei showing maximum antioxidative activity was selected for carrying out in vivo studies. SETTINGS AND DESIGN Six groups of Wistar albino rats were fed on diets containing 20% fresh or oxidized soybean oil supplemented with 5% lyophilized culture or fermented milk prepared using L. casei ssp casei for a period of 90 days. The plasma was separated in different lipoprotein fractions and analyzed for cholesterol content and thiobarbituric acid reactive substances (TBARS). RESULTS The cholesterol levels were less in plasma of groups fed on fermented milk by 2-11% and by 15-25% in groups fed on lyophilized culture as compared to group fed on skim milk. The levels of TBARS were lower in the LDL fraction of plasma in rats fed on fermented milk or culture than the control group fed on skim milk. CONCLUSIONS The results depict the cholesterol-lowering and antioxidative potential of Lactobacillus casei ssp casei for their application as dietary adjunct.

Transepithelial transport of milk derived bioactive peptide VLPVPQK

The transepithelial transport of an antioxidative and ACE inhibitory peptide, VLPVPQK (named peptide C) derived from casein hydrolysates was investigated along with extensively studied opioid peptide β-casomorphin using a human intestinal cell (Caco-2) monolayer. The susceptibility to the brush-border peptidases and route of transepithelial transport were observed to be the primary factors influencing the transport of these peptides. The apical to basal transport mechanism was studied using bradykinin as control as it shows resistance to cellular peptidases and its route of transepithelial transport had been established. VLPVPQK and BCM 5 were hydrolyzed by cellular peptidases while bradykinin was found intact. The transport of VLPVPQK (1.0%) was found to be relatively much higher than BCM 5 (0.03%) and bradykinin (0.1%). Interestingly the effect of some inhibitors on the transport of VLPVPQK suggested involvement of PepT1 like transporters/SOPT2 while BCM 5, its hydrolytic product and bradykinin were suggested to be transported mainly via the intracellular transcytosis pathway.

Cross-talk between probiotic lactobacilli and host immune system.

The mechanism by which probiotic lactobacilli affect the immune system is strain specific. As the immune system is a multicompartmental system, each strain has its way to interact with it and induce a visible and quantifiable effect. This review summarizes the interplay existing between the host immune system and probiotic lactobacilli, that is, with emphasis on lactobacilli as a prototype probiotic genus. Several aspects including the bacterial‐host cross‐talk with the mucosal and systemic immune system are presented, as well as short sections on the competing effect towards pathogenic bacteria and their uses as delivery vehicle for antigens.

In vitro phagocytic activity of milk neutrophils during lactation cycle in Murrah buffaloes of different parity

Milk samples were collected from 34 lactating Murrah buffaloes on days 0, 5, 15, 30, 45, 60, 90, 120, 150, 180, 210, 240, 270 and day 300 after calving. Milk somatic cell counts (SCC) were highest in multiparous buffaloes. Milk SCC were significantly lower in buffaloes of third and fourth parity during early lactation and than increased significantly (p < 0.01) by the end of lactation. Milk neutrophils were significantly lower in all the buffaloes during early lactation, but increased significantly (p < 0.01) afterwards. Milk lymphocytes were significantly higher during early lactation, but decreased significantly (p < 0.01) by the end of lactation. Phagocytic activity (PA) was highest in day 1 colostrum and then decreased significantly (p < 0.01) by the fourth milking in buffaloes of second, third and fourth parity. Phagocytic index (PI) was also highest in colostrums of primiparous buffaloes. Irrespective of parity, maximum PA and PI was observed during mid lactation. In terms of in vitro phagocytic activity, early lactation is the most critical period followed by late and mid lactation.

Bacteriocin production and different strategies for their recovery and purification.

Bacteriocins from lactic acid bacteria (LAB) are a diverse group of antimicrobial proteins/peptides, offering potential as biopreservatives, and exhibit a broad spectrum of antimicrobial activity at low concentrations along with thermal as well as pH stability in foods. High bacteriocin production usually occurs in complex media. However, such media are expensive for an economical production process. For effective use of bacteriocins as food biopreservatives, there is a need to have heat-stable wide spectrum bacteriocins produced with high-specific activity in food-grade medium. The main hurdles concerning the application of bacteriocins as food biopreservatives is their low yield in food-grade medium and time-consuming, expensive purification processes, which are suitable at laboratory scale but not at industrial scale. So, the present review focuses on the bacteriocins production using complex and food-grade media, which mainly emphasizes on the bacteriocin producer strains, media used, different production systems used and effect of different fermentation conditions on the bacteriocin production. In addition, this review emphasizes the purification processes designed for efficient recovery of bacteriocins at small and large scale.

Effect of supplementation of vitamin E, copper and zinc on the in vitro phagocytic activity and lymphocyte proliferation index of peripartum Sahiwal (Bos indicus) cows

To study the effect of vitamin E (VE), copper (Cu) and zinc (Zn) supplementation on the in vitro phagocytic activity (PA) and lymphocyte proliferation response (LPR) of blood neutrophils and lymphocytes, thirty Sahiwal pregnant cows (six in each group) in their late gestation at 30 days before the expected date of calving were selected from the NDRI experimental herd and supplemented with various micronutrients from 30 days before calving to 45 days after calving. Cows were supplemented individually with VE (1000 IU/cow/day), Cu (20 ppm/cow/day) and Zn (80 ppm/cow/day) and also with a combination of VE, Cu and Zn to study cumulative effect of all micronutrients. One group without any supplementation acted as a control. Blood neutrophils and lymphocytes were isolated and studied for their PA and LPR. Supplementation of micronutrients like VE, Cu, Zn and a combination of all these nutrients significantly (p < 0.01) increased the PA of experimental cows as compared to control (unsupplemented) cows during the pre-partum period. During post-partum, all the micronutrients (VE, Cu, Zn and their combination) showed a significant (p < 0.01) increase in the PA of experimental cows as compared to control cows. Of all the groups, significant (p < 0.01) and maximum PA was observed in the combination group followed by Zn-supplemented group during both the pre- and post-partum period. A significant (p < 0.01) increase in LPR of B lymphocytes was observed in combination-supplemented group during the pre-partum period and during both the pre- and post-partum period in the Cu-supplemented group.

Bioavailability of vitamin D2 and calcium from fortified milk

The objective of the present investigation was to determine bioavailability of calcium and vitamin D₂ from milk fortified with either calcium or vitamin D₂ alone or when both were used for preparation of multiple micronutrient fortified milk and also to study its interaction with iron and zinc bioavailability. 32 weanling male rats (aged 21-28 days) were assigned into four groups and were fed milk and milk fortified with calcium, vitamin D₂ and calcium+vitamin D₂. Vitamin D₂ increased calcium bioavailability. In multiple micronutrient fortified milk, the bioavailability of both calcium+vitamin D₂ increased in comparison to single fortification. Calcium fortification decreased, whereas vitamin D₂ increased the absorption of iron and zinc. However, calcium and vitamin D₂ when fortified in combination, the iron and zinc bioavailability was similar to control group. There was positive association between bioavailability of calcium and vitamin D₂.

Dietary supplementation of milk fermented with probiotic Lactobacillus fermentum enhances systemic immune response and antioxidant capacity in aging mice

Although probiotics are known to enhance the host immune response, their roles in modulating immunosenescence, resisting infection, and improving redox homeostasis during aging remain unclear. Therefore, the present study was devised in aging mice to assess the antiimmunosenescence potential from the consumption of milk that is fermented with probiotic Lactobacillus fermentum MTCC 5898 (LF). We hypothesized that probiotic supplementation would boost immunity, improve antioxidant capacity, and resist severity of pathogenic infection in aging mice. To test this hypothesis, during a trial period of 2 months, 16-month-old male Swiss mice were kept on 3 experimental diets: basal diet (BD), BD supplemented with skim milk, and BD supplemented with probiotic LF-fermented milk. A concurrent analysis of several immunosenescence markers that include neutrophil functions, interleukins profile, inflammation and antibody responses in the intestine as well as analysis of antioxidant enzymes in the liver and red blood cells was performed. Neutrophil respiratory burst enzymes and phagocytosis increased significantly in probiotic LF-fed groups, whereas no exacerbation in plasma levels of monocyte chemotactic protein 1 and tumor necrosis factor α was observed. Splenocytes registered increased interferon-γ but decreased interleukin 4 and interleukin 10 production, whereas humoral antibodies registered decreases in immunoglobulin G1 (IgG1)/IgG2a ratio and IgE levels in the probiotic-fed groups. Antioxidant enzymes (superoxide dismutase, catalase, and glutathione peroxidase) in LF-fed groups showed increased activities, which were more pronounced in the liver than in red blood cell. An Escherichia coli-based infection model in aging mice was also designed to validate the protective attributes of LF. Administration of probiotic LF significantly reduced E coli population in organs (intestine, liver, spleen, and peritoneal fluid), as compared with control groups, by enhancing E coli-specific antibodies and inflammatory proteins. Based on these results, it appears that LF supplementation alleviated immunosenescence, enhanced antioxidant enzyme activities, and resisted E coli infection in aging mice; thereby, signifying its potential in augmenting healthy aging.