آئی ہجر دی لمی رات
میرا دل دلیلاں وات
ہر ویلے شیطان ابلیس
دشمن بیٹھا لا کے گھات
تیری یاد ستاندی اے
آوے جد موسم برسات
اکھیں تکدیاں رہیاں نیں پر
کر نہ سکے دل دی بات
بُھکھ دنیا تے ننگیاں کردی
سب توں وڈی ایہہ آفات
شادی دا ہُن ویلا آیا
گھڑا وجائو، نال پرات
دل حنیف دا انج کردا اے
پڑھدا رہاں نبیؐ دی نعت
The Almighty Allah has sent many intellectual and pious people after the Last Prophet and Messenger Allah Subhan-o-Tala for the security of Den-e-Islam. They not noly Protect Deen-e-Islam from the foreign imovation but take their roles in its world over spreading. One among these prestigious personalities and intellectual is Jalal Ud Din Asoyothi (849-911). He was a multi sided personality. At the same time he was a great scholar, Author, Reviewer and genius intellectual among his friends. You are the author of approximately 700 books. He has touched my aspect of life in written works. While having such a busy and prestigious life of honesty, truthfulness, rejecting the materialistic life having a heart for the spiritual life. He started to leads the life of mysticism and till death did not leave the life of mystics persons. In this mystic’s life he has written and review many books. Due to this mysticism he was serves the humanity and protect Deen-e-Islam from the false beliefs. In this research paper some of the aspect of mysticism in the light of his research works has been discussed.
Hepatitis C Virus is one of the lethal infections prevailing throughout the world. There are approximately 8.5 million individuals that are infected with this deadly virus in Pakistan. Hepatitis C virus is responsible for acute and chronic viral infection. Chronic hepatitis C virus infection causes persistent inflammation that leads to liver fibrosis, insulin resistance/type 2 diabetes mellitus, liver cirrhosis and finally hepatocellular carcinoma (HCC). There is strong evidence that insulin resistance has a major role in metabolic syndrome, and is a risk factor for increased liver fibrosis in patients with chronic hepatitis C virus infection. However the underlying mechanism of insulin resistance in chronic hepatitis C virus infection is not well known. The present study describes the molecular mechanism of HCV nonstructural protein 5A (NS5A) induced insulin resistance. In this study, we elucidated the molecular mechanism involved in HCV nonstructural protein 5A (NS5A) induced insulin resistance. In the present study human hepatoma cell line Huh 7.5 was transfected with HCV NS5A (Huh 7.5/NS5A) as well as HCV (JFH-1) genomic RNA was transfected into Huh 7.5 cell line (Huh 7.5/HCV) to discern the effect of HCV and HCV NS5A protein upon modulation of insulin signaling pathway. Here, we demonstrated that an increased serine phosphorylation of insulin receptor substrate-1 (pSer307) and Akt (pSer473) in Huh 7.5/HCV infected cells compared to mock infected cells. Interestingly, the Huh 7.5/NS5A cell line showed an increased serine phosphorylation of pSer307 IRS-1 and pSer473 Akt, compared to the mock transfected cells, which is a critical step defining the downstream insulin signaling pathway. Glycogen synthase kinase-3 (GSK-3), the downstream target of Akt, is known to favor gluconeogenesis. Our results revealed a diminished phosphorylation level of GSK-3 in Huh 7.5/NS5A expressing hepatoma cells compared to the mock transfected cells, thereby favoring gluconeogenesis. Forkhead transcription factor (FOX-01) which is another important downstream target of insulin signaling pathway, was shown to undergo reduced phosphorylation level (pSer 256) in Huh 7.5/NS5A expressing hepatoma cells compared to the mock transfected cells. Collectively, these findings suggest a molecular mechanism by which ectopic expression of Huh 7.5/NS5A modulates the insulin signaling pathway at post translational level. There are several gluconeogenic and lipogenic markers lying downstream to the insulin mediated signaling molecules (pSer307IRS-1, pSer473Akt, pSer256Fox-01 and GSK-3). In this study, we observed that Huh 7.5/HCV infected hepatoma cells as well as ectopic expression of Huh 7.5/NS5A leads to enhanced gluconeogenesis through up regulating the mRNA levels of gluconeogenic genes i.e. Phosphoenol pyruvate carboxy kinase (PEPCK) and Glucose-6-phosphatase (G6P) compared to their controls. In the similar way, an elevated mRNA level of Diacyl glycerol acyltransferase (DGAT), a key lipogenic marker, was also observed in Huh 7.5/HCV infected as well as Huh 7.5/NS5A expressing hepatoma cells compared to their controls. Based on these results, we deduce a mechanism through which HCV NS5A is potentially capable of modulating the entire insulin signaling pathway at mRNA and post-translational level thereby paving a way towards insulin resistance, a metabolic syndrome.