Decreasing in Lysine Reflect Lysosomal Dysfunction andAccumulated Phenylalanine which Connected to WMH andCVD and Both of Phenylketonuria and Calcifications whereN-Acetylcysteine Prevent Organs Failure

Abstract

Phenylalanine function stabilized by lysine which found on lysosomal surface, that Phe necessary to regulate the synthesis or secretion of α-amylase, trypsin and lipase, wherethe Severe acute pancreatitis in a child with phenylketonuria.The phenylketonuria due to decreased lysine followed by lysosomal dysfunction that will be result of deficiency in phenylalanine function that will not form pancreatic enzymes
and stomach enzyme and will be accumulated.The Lysosomal dysfunction will be result of accumulation of undigested polymer including inflammation which play important roles in pathophysiology, that reflect reductionin lysine acylation followed by reduction in aminoacyl tRNAs which promote Phe and E coli functions for activating protein and mRNAs synthesis, that will be followed by
increasing in TNf-a synthesis (and reduction in VEGF-As ) which activate NK (not beings related to human immune proper function ) which regulated by the undigested polymers in random pathways stimulated by TNf-a functional pathway (activated by NLRP3 inflammasome.Retinoic acid is necessary to promote lysine acylation which regulate aminoacyl-tRNAs production regulated by mitochondrial enzymes, which regulate mRNA production by E coli (regulated by phenylalanine) that necessary to run antioxidant functions and cellular biosynthesis. Lysine acetylation so important to regulates the activity of Escherichia coli Sadenosylmethionine synthase. RNA (produced by E coli) is 2′-O-methylated demonstrated higher
stability that can improve immune by promoting anti-inflammatory processes and improve myocardial functions, and adopt heart constriction by activating NR4As pathway.The antihypertensive pathway mechanism is: the Lysine ¬¬>activate ATPase (stimulate retinoic acid “RA” ) ¬¬>Lysine acetylation ¬¬> promote Phe/ hydroxylase ¬¬> followed by ¬>activate Tyr/ hydroxylase ¬>activate dopamine ¬> activate NR4As pathway ¬>GC-beta ¬>activate both of Oxytocin and Nrf2 ¬> Ang2-AT2 and VEGF-A productive
functions ¬>heme oxygenase ¬>anti-inflammatory growth and processes.
Lysine Methylation has important role in adopt hypertension through activating pervious Antihypertensive pathway mediated by Phe hydroxylase synthesis and Tyr hydroxylase production followed by activating both of dopamine and NR4As pathway. The oxidation of phenylalanyl-tRNA synthetase positively regulates translational quality control, and regulates the initiation of digestive enzyme mRNA translation, where consecutive AAA-lysines is paused for encoding Phe followed by ribosome sliding on homopolymeric A sequence. That lysine activates mitochondria function followed by promoting Phenylalanine and phenylalanine-tRNAs productions by translations within E coli, followed by Phe/ hydroxylase
activate Tyr hydroxylase production which activate dopamine synthesis.