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Colostrinin (also known as CLN, proline-rich polypeptides or PRP) is a mixture of proline-rich polypeptides extracted from colostrum from sheep and cows.
A placebo-controlled clinical trial with Colostrinin in 106 people with Alzheimer's over 30 weeks was completed in 2002 and the results appeared to demonstrate efficacy in a significant proportion of patients treated. The results showed that approximately 40% of patients on Colostrinin were stabilized or improved after 15 weeks of therapy, based on an Analysis of Overall Response. 33% of patients continued to show stabilization or improvement after 30 weeks of treatment, although levels of benefit were slightly higher at the 15-week stage of the trial. The dosage regimen used for the trial was 100 micrograms of Colostrinin administered every second day for three weeks followed by a two-week period without Colostrinin.
A 2010 study demonstrated that Colostrinin significantly relieved amyloid-beta (Aß)-induced cytotoxicity, alleviated the effect of Aß-induced cytotoxicity and caused a significant reduction in the elevated levels of the antioxidant enzyme SOD1.
Another study showed that Colostrinin induces neurite outgrowth of pheochromocytoma cells and inhibits beta amyloid-induced apoptosis.
There were also studies of the Colostrinin components and their possible effect on aggregation of amyloid beta (Abeta1-42). Results presented suggest that NP - Colostrinin component, can directly interact with amyloid beta, inhibit its aggregation and disrupt existing aggregates acting as a beta sheet breaker and reduce toxicity induced by aggregated forms of Abeta.
Another study in day-old domestic chicks showed enhancement of long-term memory retention.
A randomized, double-blind, placebo-controlled trial from 2023 showed that daily use of Colostrinin improved scores on 2 of 5 cognitive tests in adults of various ages in Poland over a 4-month period.
An in-vitro study completed in 2005 showed that Colostrinin can increase the lifespan of cells isolated from inbred mice predisposed to premature aging and death.I. Boldogh; A. Bacsi; L. Agulera-Aguirre; P. German; M. Kruzel; Colostrinin Increases the Lifespan and Neurological Performance of Mice, 03, 2008.
A 2006 study published in the Journal of Experimental Therapeutics and Oncology indicated that Colostrin reduces the mutation frequency in the DNA of cells. Such DNA damage is implicated in the general process of aging. The study, which was performed in both hamster and human cells, looked at the effect of Colostrinin on the frequency of defined DNA mutations in these cells as they occur naturally and when induced by various known chemical or physical agents. In cells stressed oxidatively, Colostrinin reduced the frequency of mutation induced by reactive oxygen species (ROS) to nearly background levels in a dose-dependent manner. Likewise, Colostrinin reduced the frequency of mutation caused by two mutagenic agents, methyl methane sulfonate and mitomycin-C, the latter often used in cancer chemotherapy. Notably Colostrinin decreased UVA and UVB radiation induced mutation frequency. These damaging radiations are a natural part of sunlight. UVA radiation plays a role in the induction of melanoma and UVB radiation is the primary cause of squamous cell carcinomas. It is suggested that the antimutagenic properties of Colostrinin are achieved via multiple mechanisms - by decreasing intracellular levels of ROS and so preventing DNA damage and by increasing the efficiency of natural DNA repair mechanisms.
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