Amino acid substitutions

Here there is a single amino acid substitution in one of the polypeptide chains. Over 200 such variants have been described. Some of these involve amino acids that are not structurally or functionally vital, and as a result are clinically silent; others have important consequences, including effects on haemoglobin solubility (e.g. HbS, the haemoglobin of sickle cell disease), stability and oxygen-carrying capacity.

Thalassaemias

In the thalassaemias there is an inherited defect in the rate of synthesis of one of the globin chains. This can involve the α-chains (α-thalassaemia) or the β-chains (β-thalassaemia). The consequences include ineffective erythropoiesis, haemolysis and a variable degree of anaemia. The clinical severity varies between the different thalassaemias. Some are clinically silent except during periods of stress, such as severe infection or pregnancy, when anaemia may develop, while others cause severe, persistent anaemia. When α-chain synthesis is totally absent, affected infants are either stillborn or die shortly after birth.

The investigation and management of the haemoglobinopathies is the province of the haematologist, and these disorders are not considered further in this book.

Methaemoglobin

Methaemoglobin is oxidized haemoglobin, with iron in the Fe³⁺ form. It is incapable of carrying oxygen. A small amount is normally produced spontaneously in red blood cells but can be enzymatically reduced back to haemoglobin. Excessive methaemoglobin (methaemoglobinaemia) can be congenital or acquired. It can occur in some haemoglobinopathies, with an inherited deficiency of the reductase enzyme, and also as a result of the ingestion of large amounts of certain drugs, such as sulphonamides. In toxic methaemoglobinaemia, the presence of methaemalbumin (formed as a result of haemolysis of red cells containing methaemoglobin) imparts a brown colour to the plasma, while the presence of free methaemoglobin may give the urine a similar colour.

The major clinical manifestation of congenital methaemoglobinaemia is cyanosis. Acute toxic methaemoglobinaemia causes symptoms of anaemia and may lead to vascular collapse and death. Methaemoglobinaemia, except when due to a haemoglobinopathy, can be treated with methylthioninium chloride (methylene blue) or ascorbic acid, agents that reduce the abnormal derivative back to haemoglobin.

Sulphaemoglobin

Sulphaemoglobin, a group of poorly characterized derivatives of haemoglobin, is often formed together with methaemoglobin. It is also incapable of carrying oxygen, but cannot be converted back to haemoglobin.

Carboxyhaemoglobin

Carboxyhaemoglobin (COHb) is formed from haemoglobin in the presence of carbon monoxide, the affinity of the pigment for this gas being some 200 times greater than for oxygen. Because of this, only small quantities of carbon monoxide in the inspired air can result in the formation of large amounts of COHb, and hence greatly reduce the oxygen-carrying capacity of the blood. The binding of carbon monoxide to haemoglobin also causes a left shift in the oxyhaemoglobin dissociation curve (see p. 58), decreasing the availability of oxygen to tissues. Small amounts of COHb (<2%) are commonly present in the blood of urban dwellers and greater amounts (up to 10%) may be found in the blood of tobacco smokers.

Measurement of COHb is critical to the diagnosis of carbon monoxide poisoning. Carbon monoxide is produced by the incomplete combustion of fuels. Self-exposure to motor car exhaust in a confined space (e.g. a closed garage) is a well-recognized means of suicide and occasionally homicide. Chronic carbon monoxide poisoning is usually the result of poorly fitted or maintained gas appliances in the home.

Haematin

Haematin is oxidized (Fe³⁺) haem. It is released from methaemoglobin when red cells containing this pigment are haemolysed, but can be formed from free haem in severe intravascular haemolysis. Haematin combines with albumin in the bloodstream to form methaemalbumin. Methaemalbuminaemia is sometimes a feature of acute haemorrhagic pancreatitis.

Detection

These various derivatives of haemoglobin can be detected by their spectral characteristics, and quantified when necessary.

Clinical features

These conditions are characterized by a tendency to acute attacks, separated by long periods of complete remission. The clinical features of acute attacks are summarized in Figure 17.5. Abdominal pain and psychiatric disturbances are nearly always present; peripheral neuropathy occurs in some 60% of patients. Attacks can be precipitated by various factors, including many drugs (see Fig. 17.5); most frequently implicated are barbiturates, oral contraceptives and alcohol. These probably act by increasing the activity of ALA synthase, in many cases by increasing the synthesis of hepatic cytochrome P450 and hence the demand for haem, thereby decreasing intrahepatic haem concentration and releasing the enzyme from inhibition. Some drugs, notably the sulphonamides, inhibit PBG deaminase directly. Whatever the cause, the resulting increased activity of the metabolic pathway increases the formation of metabolites before the enzyme block.

Figure 17.5 Clinical features and factors involved in acute attacks of porphyria; gastrointestinal, neuropsychiatric and cardiovascular derangements are all common.

Hormonal factors are also extremely important; symptoms rarely occur before puberty and may fluctuate in relation to menstruation or pregnancy. Women are affected more commonly than men. In some 90% of individuals who inherit the defective gene for AIP, the disease remains clinically latent throughout adult life.